Item talk:Q142739: Difference between revisions

From geokb
(Created page with "{ "OpenAlex": { "id": "https://openalex.org/A5023508459", "orcid": "https://orcid.org/0000-0002-7597-5924", "display_name": "Antonio Lanzirotti", "display_name_alternatives": [ "Anthony Lanzirotti", "A. Lanzirotti", "T. Lanzirotti", "A. Lanzirottic", "Tony Lanzirotti", "Antonio Lanzirotti" ], "works_count": 328, "cited_by_count": 10367, "summary_stats": { "2yr_mean_citedness": 2.5, "h_index...")
 
No edit summary
 
Line 1,316: Line 1,316:
     "created_date": "2023-07-21",
     "created_date": "2023-07-21",
     "_id": "https://openalex.org/A5023508459"
     "_id": "https://openalex.org/A5023508459"
  },
  "ORCID": {
    "@context": "http://schema.org",
    "@type": "Person",
    "@id": "https://orcid.org/0000-0002-7597-5924",
    "mainEntityOfPage": "https://orcid.org/0000-0002-7597-5924",
    "givenName": "Antonio",
    "familyName": "Lanzirotti",
    "alumniOf": [
      {
        "@type": "Organization",
        "name": "New Mexico Institute of Mining and Technology",
        "alternateName": "Earth Sciences",
        "identifier": {
          "@type": "PropertyValue",
          "propertyID": "RINGGOLD",
          "value": "7374"
        }
      },
      {
        "@type": "Organization",
        "name": "Stony Brook University",
        "alternateName": "Earth and Space Sciences",
        "identifier": {
          "@type": "PropertyValue",
          "propertyID": "RINGGOLD",
          "value": "12301"
        }
      }
    ],
    "affiliation": {
      "@type": "Organization",
      "name": "The University of Chicago",
      "alternateName": "Center for Advanced Radiation Sources",
      "identifier": {
        "@type": "PropertyValue",
        "propertyID": "RINGGOLD",
        "value": "2462"
      }
    },
    "@reverse": {
      "creator": [
        {
          "@type": "CreativeWork",
          "@id": "https://doi.org/10.1016/j.gca.2024.07.032",
          "name": "Uranium oxidation states in zircon and other accessory phases",
          "identifier": {
            "@type": "PropertyValue",
            "propertyID": "doi",
            "value": "10.1016/j.gca.2024.07.032"
          }
        },
        {
          "@type": "CreativeWork",
          "@id": "https://doi.org/10.1126/science.adh8199",
          "name": "Biogenic-to-lithogenic handoff of particulate Zn affects the Zn cycle in the Southern Ocean",
          "identifier": {
            "@type": "PropertyValue",
            "propertyID": "doi",
            "value": "10.1126/science.adh8199"
          }
        },
        {
          "@type": "CreativeWork",
          "@id": "https://doi.org/10.1016/j.gca.2024.03.018",
          "name": "Mapping the redox state of the young Solar System using ytterbium valence state",
          "identifier": {
            "@type": "PropertyValue",
            "propertyID": "doi",
            "value": "10.1016/j.gca.2024.03.018"
          }
        },
        {
          "@type": "CreativeWork",
          "@id": "https://doi.org/10.2138/am-2022-8833",
          "name": "Sulfur speciation in dacitic melts using X-ray absorption near-edge structure spectroscopy of the S <i>K</i>-edge (S-XANES): Consideration of radiation-induced changes and the implications for sulfur in natural arc systems",
          "identifier": {
            "@type": "PropertyValue",
            "propertyID": "doi",
            "value": "10.2138/am-2022-8833"
          }
        },
        {
          "@type": "CreativeWork",
          "@id": "https://doi.org/10.1016/j.chemgeo.2024.121937",
          "name": "Fe K\u03b1 XANES, Fe K\u03b2 HERFD XANES and EPMA flank method determinations of the oxidation state of Fe in garnet",
          "identifier": {
            "@type": "PropertyValue",
            "propertyID": "doi",
            "value": "10.1016/j.chemgeo.2024.121937"
          }
        },
        {
          "@type": "CreativeWork",
          "@id": "https://doi.org/10.1111/maps.14130",
          "name": "Focused\u2010beam X\u2010ray fluorescence and diffraction microtomographies for mineralogical and chemical characterization of unsectioned extraterrestrial samples",
          "identifier": {
            "@type": "PropertyValue",
            "propertyID": "doi",
            "value": "10.1111/maps.14130"
          }
        },
        {
          "@type": "CreativeWork",
          "@id": "https://doi.org/10.1016/j.gca.2023.07.021",
          "name": "The effect of composition, temperature and pressure on the oxidation state and coordination environment of copper in silicate melts",
          "identifier": {
            "@type": "PropertyValue",
            "propertyID": "doi",
            "value": "10.1016/j.gca.2023.07.021"
          }
        },
        {
          "@type": "CreativeWork",
          "@id": "https://doi.org/10.1093/mtomcs/mfad058",
          "name": "Synchrotron X-rays reveal the modes of Fe binding and trace metal storage in the brown algae <i>Laminaria digitata</i> and <i>Ectocarpus siliculosus</i>",
          "identifier": {
            "@type": "PropertyValue",
            "propertyID": "doi",
            "value": "10.1093/mtomcs/mfad058"
          }
        },
        {
          "@type": "CreativeWork",
          "@id": "https://doi.org/10.22541/essoar.169447393.32373052/v1",
          "name": "Nanoscale Analyses of X-ray Amorphous Material from Terrestrial Ultramafic Soils Record Signatures of Environmental Conditions Useful for Interpreting Past Martian Conditions",
          "identifier": {
            "@type": "PropertyValue",
            "propertyID": "doi",
            "value": "10.22541/essoar.169447393.32373052/v1"
          }
        },
        {
          "@type": "CreativeWork",
          "@id": "https://doi.org/10.2138/am-2022-8547",
          "name": "Wave vector and field vector orientation dependence of Fe <i>K</i> pre-edge X-ray absorption features in clinopyroxenes",
          "identifier": {
            "@type": "PropertyValue",
            "propertyID": "doi",
            "value": "10.2138/am-2022-8547"
          }
        },
        {
          "@type": "CreativeWork",
          "@id": "https://doi.org/10.1016/j.chemgeo.2023.121605",
          "name": "Calibration for iron redox state and oxygen fugacity in silicate glasses from x-ray absorption spectroscopy",
          "identifier": {
            "@type": "PropertyValue",
            "propertyID": "doi",
            "value": "10.1016/j.chemgeo.2023.121605"
          }
        },
        {
          "@type": "CreativeWork",
          "@id": "https://doi.org/10.2138/am-2022-8388",
          "name": "Eu speciation in apatite at 1 bar: An experimental study of valence-state partitioning by XANES, lattice strain, and Eu/Eu* in basaltic systems",
          "identifier": {
            "@type": "PropertyValue",
            "propertyID": "doi",
            "value": "10.2138/am-2022-8388"
          }
        },
        {
          "@type": "CreativeWork",
          "@id": "https://doi.org/10.1101/2022.09.05.506690",
          "name": "The mitochondrial Cu+transporter PiC2 (SLC25A3) is a target of MTF1 and contributes to the development of skeletal musclein vitro",
          "identifier": {
            "@type": "PropertyValue",
            "propertyID": "doi",
            "value": "10.1101/2022.09.05.506690"
          }
        },
        {
          "@type": "CreativeWork",
          "@id": "https://doi.org/10.1007/s00269-022-01207-4",
          "name": "GeoSoilEnviroCARS (Sector 13) at the Advanced Photon Source: a comprehensive synchrotron radiation facility for Earth science research at ambient and extreme conditions",
          "identifier": {
            "@type": "PropertyValue",
            "propertyID": "doi",
            "value": "10.1007/s00269-022-01207-4"
          }
        },
        {
          "@type": "CreativeWork",
          "@id": "https://doi.org/10.3389/fclim.2022.913632",
          "name": "Cation Exchange in Smectites as a New Approach to Mineral Carbonation",
          "identifier": {
            "@type": "PropertyValue",
            "propertyID": "doi",
            "value": "10.3389/fclim.2022.913632"
          }
        },
        {
          "@type": "CreativeWork",
          "@id": "https://doi.org/10.2138/am-2021-7933",
          "name": "Radiation-induced changes in vanadium speciation in basaltic glasses: Implications for oxybarometry measurements using vanadium K-edge X-ray absorption spectroscopy",
          "identifier": {
            "@type": "PropertyValue",
            "propertyID": "doi",
            "value": "10.2138/am-2021-7933"
          }
        },
        {
          "@type": "CreativeWork",
          "@id": "https://doi.org/10.2138/am-2021-7950",
          "name": "The absorption indicatrix as an empirical model to describe anisotropy in X-ray absorption spectra of pyroxenes",
          "identifier": {
            "@type": "PropertyValue",
            "propertyID": "doi",
            "value": "10.2138/am-2021-7950"
          }
        },
        {
          "@type": "CreativeWork",
          "@id": "https://doi.org/10.1016/j.cageo.2021.104898",
          "name": "SMART mineral mapping: Synchrotron-based machine learning approach for 2D characterization with coupled micro XRF-XRD",
          "identifier": {
            "@type": "PropertyValue",
            "propertyID": "doi",
            "value": "10.1016/j.cageo.2021.104898"
          }
        },
        {
          "@type": "CreativeWork",
          "@id": "https://doi.org/10.1016/j.gca.2021.07.016",
          "name": "Trace elemental behavior in the solar nebula: Synchrotron X-ray fluorescence analyses of CM and CR chondritic iron sulfides and associated metal",
          "identifier": {
            "@type": "PropertyValue",
            "propertyID": "doi",
            "value": "10.1016/j.gca.2021.07.016"
          }
        },
        {
          "@type": "CreativeWork",
          "@id": "https://doi.org/10.1016/j.gca.2020.09.020",
          "name": "An Experimental-XANES Investigation of Cr Valence Systematics in Basaltic Liquids and Applications to Modeling Cr2+/ \u03a3 Cr Evolution in Crystallizing Basaltic Magma Systems",
          "identifier": {
            "@type": "PropertyValue",
            "propertyID": "doi",
            "value": "10.1016/j.gca.2020.09.020"
          }
        },
        {
          "@type": "CreativeWork",
          "name": "Reply: Data-Driven Motion Correction in Clinical PET: A Joint Accomplishment of Creative Academia and Industry"
        },
        {
          "@type": "CreativeWork",
          "@id": "https://doi.org/10.1111/maps.13603",
          "name": "Valence determinations and oxybarometry on FIB\u2010sectioned olivine and pyroxene using correlated Ti, V, and Cr micro\u2010XAFS spectroscopy: Evaluation of ion\u2010milling effects and application to Antarctic micrometeorite grains",
          "identifier": {
            "@type": "PropertyValue",
            "propertyID": "doi",
            "value": "10.1111/maps.13603"
          }
        },
        {
          "@type": "CreativeWork",
          "@id": "https://doi.org/10.1126/sciadv.abd1387",
          "name": "Redox state of Earth\u2019s magma ocean and its Venus-like early atmosphere",
          "identifier": {
            "@type": "PropertyValue",
            "propertyID": "doi",
            "value": "10.1126/sciadv.abd1387"
          }
        },
        {
          "@type": "CreativeWork",
          "@id": "https://doi.org/10.1016/j.gca.2019.09.029",
          "name": "Direct measurements of copper speciation in basaltic glasses: understanding the relative roles of sulfur and oxygen in copper complexation in melts",
          "identifier": {
            "@type": "PropertyValue",
            "propertyID": "doi",
            "value": "10.1016/j.gca.2019.09.029"
          }
        },
        {
          "@type": "CreativeWork",
          "@id": "https://doi.org/10.1016/j.chemgeo.2019.119328",
          "name": "The source of sulfate in brachiopod calcite: Insights from \u03bc-XRF imaging and XANES spectroscopy",
          "identifier": {
            "@type": "PropertyValue",
            "propertyID": "doi",
            "value": "10.1016/j.chemgeo.2019.119328"
          }
        },
        {
          "@type": "CreativeWork",
          "@id": "https://doi.org/10.1016/j.gca.2019.08.039",
          "name": "Oxidation state and coordination environment of Pb in U-bearing minerals",
          "identifier": {
            "@type": "PropertyValue",
            "propertyID": "doi",
            "value": "10.1016/j.gca.2019.08.039"
          }
        },
        {
          "@type": "CreativeWork",
          "@id": "https://doi.org/10.1016/j.chemgeo.2019.05.036",
          "name": "Depositional and diagenetic constraints on the abundance and spatial variability of carbonate-associated sulfate",
          "identifier": {
            "@type": "PropertyValue",
            "propertyID": "doi",
            "value": "10.1016/j.chemgeo.2019.05.036"
          }
        },
        {
          "@type": "CreativeWork",
          "@id": "https://doi.org/10.1016/j.gca.2019.03.001",
          "name": "Solubility and speciation of iron in hydrothermal fluids",
          "identifier": {
            "@type": "PropertyValue",
            "propertyID": "doi",
            "value": "10.1016/j.gca.2019.03.001"
          }
        },
        {
          "@type": "CreativeWork",
          "@id": "https://doi.org/10.1016/j.chemgeo.2018.07.018",
          "name": "Copper complexation and solubility in high-temperature hydrothermal fluids: A combined study by Raman, X-ray fluorescence, and X-ray absorption spectroscopies and ab initio molecular dynamics simulations",
          "identifier": {
            "@type": "PropertyValue",
            "propertyID": "doi",
            "value": "10.1016/j.chemgeo.2018.07.018"
          }
        },
        {
          "@type": "CreativeWork",
          "@id": "https://doi.org/10.2138/am-2018-6268",
          "name": "A M\u00f6ssbauer-based XANES calibration for hydrous basalt glasses reveals radiation-induced oxidation of Fe",
          "identifier": {
            "@type": "PropertyValue",
            "propertyID": "doi",
            "value": "10.2138/am-2018-6268"
          }
        },
        {
          "@type": "CreativeWork",
          "name": "A M\u00f6ssbauer-based XANES calibration for hydrous basalt glasses reveals radiation-induced oxidation of Fe"
        },
        {
          "@type": "CreativeWork",
          "name": "Ice-VII inclusions in diamonds: Evidence for aqueous fluid in Earth\u2019s deep mantle"
        },
        {
          "@type": "CreativeWork",
          "@id": "https://doi.org/10.1126/science.aao3030",
          "name": "Ice-VII inclusions in diamonds: Evidence for aqueous fluid in Earth\u2019s deep mantle",
          "identifier": [
            {
              "@type": "PropertyValue",
              "propertyID": "doi",
              "value": "10.1126/science.aao3030"
            },
            {
              "@type": "PropertyValue",
              "propertyID": "eid",
              "value": "2-s2.0-85043236050"
            }
          ]
        },
        {
          "@type": "CreativeWork",
          "@id": "https://doi.org/10.1016/j.gca.2017.09.030",
          "name": "Substitution and diffusion of Cr<sup>2+</sup>and Cr<sup>3+</sup>in synthetic forsterite and natural olivine at 1200\u20131500\u202f\u00b0C and 1\u202fbar",
          "identifier": [
            {
              "@type": "PropertyValue",
              "propertyID": "eid",
              "value": "2-s2.0-85032583491"
            },
            {
              "@type": "PropertyValue",
              "propertyID": "doi",
              "value": "10.1016/j.gca.2017.09.030"
            }
          ]
        },
        {
          "@type": "CreativeWork",
          "name": "Vanadium, sulfur, and iron valences in melt inclusions as a window into magmatic processes: A case study at Nyamuragira volcano, Africa"
        },
        {
          "@type": "CreativeWork",
          "@id": "https://doi.org/10.1016/j.gca.2018.01.033",
          "name": "Vanadium, sulfur, and iron valences in melt inclusions as a window into magmatic processes: A case study at Nyamuragira volcano, Africa",
          "identifier": [
            {
              "@type": "PropertyValue",
              "propertyID": "eid",
              "value": "2-s2.0-85042299079"
            },
            {
              "@type": "PropertyValue",
              "propertyID": "doi",
              "value": "10.1016/j.gca.2018.01.033"
            }
          ]
        },
        {
          "@type": "CreativeWork",
          "@id": "https://doi.org/10.2138/am-2017-5822",
          "name": "Calibration of Fe XANES for high-precision determination of Fe oxidation state in glasses: Comparison of new and existing results obtained at different synchrotron radiation sources",
          "identifier": {
            "@type": "PropertyValue",
            "propertyID": "doi",
            "value": "10.2138/am-2017-5822"
          }
        },
        {
          "@type": "CreativeWork",
          "@id": "https://doi.org/10.1130/abs/2017am-305603",
          "name": "ARSENIC REMOVAL FROM HIGH SALINITY WASTEWATER THROUGH BARITE CO-PRECIPITATION",
          "identifier": {
            "@type": "PropertyValue",
            "propertyID": "doi",
            "value": "10.1130/abs/2017am-305603"
          }
        },
        {
          "@type": "CreativeWork",
          "name": "Calibration of Fe XANES for high-precision determination of Fe oxidation state in glasses: Comparison of new and existing results obtained at different synchrotron radiation sources"
        },
        {
          "@type": "CreativeWork",
          "name": "Characterisation of radionuclides in uranium mine tailings with synchrotron-based hard x-ray microprobe techniques"
        },
        {
          "@type": "CreativeWork",
          "name": "Evaluating zinc isotope fractionation under sulfate reducing conditions using a flow-through cell and in situ XAS analysis"
        },
        {
          "@type": "CreativeWork",
          "@id": "https://doi.org/10.1016/j.gca.2016.12.034",
          "name": "Evaluating zinc isotope fractionation under sulfate reducing conditions using a flow-through cell and in situ XAS analysis",
          "identifier": [
            {
              "@type": "PropertyValue",
              "propertyID": "doi",
              "value": "10.1016/j.gca.2016.12.034"
            },
            {
              "@type": "PropertyValue",
              "propertyID": "eid",
              "value": "2-s2.0-85010200837"
            }
          ]
        },
        {
          "@type": "CreativeWork",
          "name": "In situ measurement of ferric iron in lunar glass beads using Fe-XAS"
        },
        {
          "@type": "CreativeWork",
          "@id": "https://doi.org/10.1016/j.icarus.2016.12.029",
          "name": "In situ measurement of ferric iron in lunar glass beads using Fe-XAS",
          "identifier": [
            {
              "@type": "PropertyValue",
              "propertyID": "doi",
              "value": "10.1016/j.icarus.2016.12.029"
            },
            {
              "@type": "PropertyValue",
              "propertyID": "eid",
              "value": "2-s2.0-85007140096"
            }
          ]
        },
        {
          "@type": "CreativeWork",
          "name": "Intraplate mantle oxidation by volatile-rich silicic magmas"
        },
        {
          "@type": "CreativeWork",
          "@id": "https://doi.org/10.1016/j.lithos.2017.09.002",
          "name": "Intraplate mantle oxidation by volatile-rich silicic magmas",
          "identifier": [
            {
              "@type": "PropertyValue",
              "propertyID": "doi",
              "value": "10.1016/j.lithos.2017.09.002"
            },
            {
              "@type": "PropertyValue",
              "propertyID": "eid",
              "value": "2-s2.0-85042192283"
            }
          ]
        },
        {
          "@type": "CreativeWork",
          "@id": "https://doi.org/10.1021/acs.est.6b05891",
          "name": "Ion Diffusion Within Water Films in Unsaturated Porous Media",
          "identifier": [
            {
              "@type": "PropertyValue",
              "propertyID": "doi",
              "value": "10.1021/acs.est.6b05891"
            },
            {
              "@type": "PropertyValue",
              "propertyID": "eid",
              "value": "2-s2.0-85020033506"
            }
          ]
        },
        {
          "@type": "CreativeWork",
          "name": "Ion diffusion within water films in unsaturated porous media"
        },
        {
          "@type": "CreativeWork",
          "name": "Preliminary Calibration for Accurate Predictions of Microscale Oxygen Barometry in Silicate Glasses Using Vanadium X-Ray Absorption Spectroscopy: A Multivariate Approach"
        },
        {
          "@type": "CreativeWork",
          "name": "Quantifying and correcting the effects of anisotropy in XANES measurements of chromium valence in olivine: Implications for a new olivine oxybarometer"
        },
        {
          "@type": "CreativeWork",
          "@id": "https://doi.org/10.2138/am-2017-5911",
          "name": "Quantifying and correcting the effects of anisotropy in XANES measurements of chromium valence in olivine: Implications for a new olivine oxybarometer",
          "identifier": [
            {
              "@type": "PropertyValue",
              "propertyID": "eid",
              "value": "2-s2.0-85020691579"
            },
            {
              "@type": "PropertyValue",
              "propertyID": "doi",
              "value": "10.2138/am-2017-5911"
            }
          ]
        },
        {
          "@type": "CreativeWork",
          "name": "Rapid reduction of MORB glass in piston cylinder experiments with graphite capsule-a XANES study"
        },
        {
          "@type": "CreativeWork",
          "name": "Shock-transformation of whitlockite to merrillite and the implications for meteoritic phosphate"
        },
        {
          "@type": "CreativeWork",
          "@id": "https://doi.org/10.1038/ncomms14667",
          "name": "Shock-transformation of whitlockite to merrillite and the implications for meteoritic phosphate",
          "identifier": [
            {
              "@type": "PropertyValue",
              "propertyID": "eid",
              "value": "2-s2.0-85014605259"
            },
            {
              "@type": "PropertyValue",
              "propertyID": "doi",
              "value": "10.1038/ncomms14667"
            }
          ]
        },
        {
          "@type": "CreativeWork",
          "name": "Spatially resolved elemental analysis, spectroscopy and diffraction at the GSECARS sector at the advanced photon source"
        },
        {
          "@type": "CreativeWork",
          "@id": "https://doi.org/10.2134/jeq2016.10.0401",
          "name": "Spatially resolved elemental analysis, spectroscopy and diffraction at the gsecars sector at the advanced photon source",
          "identifier": [
            {
              "@type": "PropertyValue",
              "propertyID": "eid",
              "value": "2-s2.0-85034231514"
            },
            {
              "@type": "PropertyValue",
              "propertyID": "doi",
              "value": "10.2134/jeq2016.10.0401"
            }
          ]
        },
        {
          "@type": "CreativeWork",
          "name": "Subretinal pigment epithelial deposition of drusen components including hydroxyapatite in a primary cell culture model"
        },
        {
          "@type": "CreativeWork",
          "@id": "https://doi.org/10.1167/iovs.16-21060",
          "name": "Subretinal pigment epithelial deposition of drusen components including hydroxyapatite in a primary cell culture model",
          "identifier": [
            {
              "@type": "PropertyValue",
              "propertyID": "doi",
              "value": "10.1167/iovs.16-21060"
            },
            {
              "@type": "PropertyValue",
              "propertyID": "eid",
              "value": "2-s2.0-85011564530"
            }
          ]
        },
        {
          "@type": "CreativeWork",
          "name": "The bulk valence state of Fe and the origin of water in chondrites"
        },
        {
          "@type": "CreativeWork",
          "@id": "https://doi.org/10.1016/j.gca.2017.05.021",
          "name": "The bulk valence state of Fe and the origin of water in chondrites",
          "identifier": [
            {
              "@type": "PropertyValue",
              "propertyID": "doi",
              "value": "10.1016/j.gca.2017.05.021"
            },
            {
              "@type": "PropertyValue",
              "propertyID": "eid",
              "value": "2-s2.0-85019967749"
            }
          ]
        },
        {
          "@type": "CreativeWork",
          "name": "3D-Mapping of Fayalite Oxidation Using Synchrotron: Implications for Volatiles Evolution During Planetary Crust Formation"
        },
        {
          "@type": "CreativeWork",
          "name": "A primary retinal pigment epithelial (RPE) cell culture model produces lipid-and hydroxyapatite-rich extracellular deposits characteristic of early stage age-related macular degeneration"
        },
        {
          "@type": "CreativeWork",
          "name": "Accurate predictions of iron redox state in silicate glasses: A multivariate approach using X-ray absorption spectroscopy"
        },
        {
          "@type": "CreativeWork",
          "@id": "https://doi.org/10.2138/am-2016-5555",
          "name": "Accurate predictions of iron redox state in silicate glasses: A multivariate approach using X-ray absorption spectroscopy",
          "identifier": [
            {
              "@type": "PropertyValue",
              "propertyID": "doi",
              "value": "10.2138/am-2016-5555"
            },
            {
              "@type": "PropertyValue",
              "propertyID": "eid",
              "value": "2-s2.0-84962521594"
            }
          ]
        },
        {
          "@type": "CreativeWork",
          "@id": "https://doi.org/10.1130/abs/2016am-279019",
          "name": "HIGH ENERGY SYNCHROTRON X-RAY MICROSPECTROSCOPY FOR GEOCHEMICAL CHARACTERIZATION OF TERRESTRIAL AND EXTRATERRESTRIAL SAMPLES",
          "identifier": {
            "@type": "PropertyValue",
            "propertyID": "doi",
            "value": "10.1130/abs/2016am-279019"
          }
        },
        {
          "@type": "CreativeWork",
          "name": "High-speed, coupled micro-beam XRD/XRF/XAFS mapping at GSECARS: APS beamline 13-ID-E"
        },
        {
          "@type": "CreativeWork",
          "@id": "https://doi.org/10.1130/abs/2016am-284822",
          "name": "IN SITU MEASUREMENT OF FERRIC IRON IN LUNAR GLASS BEADS USING FE-XAS",
          "identifier": {
            "@type": "PropertyValue",
            "propertyID": "doi",
            "value": "10.1130/abs/2016am-284822"
          }
        },
        {
          "@type": "CreativeWork",
          "@id": "https://doi.org/10.1130/abs/2016am-285623",
          "name": "INVESTIGATIONS INTO THE DEGASSING OF NYAMURAGIRA VOLCANO (D.R. CONGO, AFRICA) THROUGH SYNCHROTRON MICRO-XANES ANALYSIS",
          "identifier": {
            "@type": "PropertyValue",
            "propertyID": "doi",
            "value": "10.1130/abs/2016am-285623"
          }
        },
        {
          "@type": "CreativeWork",
          "name": "Ion Diffusion Through Water Films in Unsaturated Sands"
        },
        {
          "@type": "CreativeWork",
          "name": "Neurotoxins during the Renaissance. Bioarcheology of Ferrante II of Aragon (1469--1496) and Isabella of Aragon (1470--1524)"
        },
        {
          "@type": "CreativeWork",
          "@id": "https://doi.org/10.1016/j.jasrep.2016.01.013",
          "name": "Neurotoxins during the Renaissance. Bioarcheology of Ferrante II of Aragon (1469-1496) and Isabella of Aragon (1470-1524)",
          "identifier": [
            {
              "@type": "PropertyValue",
              "propertyID": "doi",
              "value": "10.1016/j.jasrep.2016.01.013"
            },
            {
              "@type": "PropertyValue",
              "propertyID": "eid",
              "value": "2-s2.0-84955247177"
            }
          ]
        },
        {
          "@type": "CreativeWork",
          "name": "Rethinking Categories within the Qualitative Dimension. Commentary on Heidegger\u2019s Duns Scotus\u2019 Theory of Categories and of Meaning"
        },
        {
          "@type": "CreativeWork",
          "name": "Structural environment of iron and accurate determination of Fe3+/$\u03a3$Fe ratios in andesitic glasses by XANES and M\u00f6ssbauer spectroscopy"
        },
        {
          "@type": "CreativeWork",
          "@id": "https://doi.org/10.1016/j.chemgeo.2016.02.022",
          "name": "Structural environment of iron and accurate determination of Fe<sup>3+</sup>/\u03c3Fe ratios in andesitic glasses by XANES and M\u00f6ssbauer spectroscopy",
          "identifier": [
            {
              "@type": "PropertyValue",
              "propertyID": "eid",
              "value": "2-s2.0-84959913032"
            },
            {
              "@type": "PropertyValue",
              "propertyID": "doi",
              "value": "10.1016/j.chemgeo.2016.02.022"
            }
          ]
        },
        {
          "@type": "CreativeWork",
          "name": "Structure and thermodynamic stability of UTa 3 O 10, a U (v)-bearing compound"
        },
        {
          "@type": "CreativeWork",
          "@id": "https://doi.org/10.1039/c6dt02843h",
          "name": "Structure and thermodynamic stability of UTa<inf>3</inf>O<inf>10</inf>, a U(v)-bearing compound",
          "identifier": [
            {
              "@type": "PropertyValue",
              "propertyID": "doi",
              "value": "10.1039/c6dt02843h"
            },
            {
              "@type": "PropertyValue",
              "propertyID": "eid",
              "value": "2-s2.0-85000538635"
            }
          ]
        },
        {
          "@type": "CreativeWork",
          "name": "Structure and thermodynamics of uranium-containing iron garnets"
        },
        {
          "@type": "CreativeWork",
          "@id": "https://doi.org/10.1016/j.gca.2016.05.043",
          "name": "Structure and thermodynamics of uranium-containing iron garnets",
          "identifier": [
            {
              "@type": "PropertyValue",
              "propertyID": "doi",
              "value": "10.1016/j.gca.2016.05.043"
            },
            {
              "@type": "PropertyValue",
              "propertyID": "eid",
              "value": "2-s2.0-84976427865"
            }
          ]
        },
        {
          "@type": "CreativeWork",
          "name": "Synchrotron X-Ray Fluorescence Analysis of Trace Elements in Focused Ion Beam Prepared Sections of Carbonaceous Chondrite Iron Sulfides (CM and CR) and Associated Metal (CR)"
        },
        {
          "@type": "CreativeWork",
          "name": "Synchrotron X-ray fluorescence spectroscopy of salts in natural sea ice"
        },
        {
          "@type": "CreativeWork",
          "@id": "https://doi.org/10.1002/2016ea000172",
          "name": "Synchrotron X-ray fluorescence spectroscopy of salts in natural sea ice",
          "identifier": [
            {
              "@type": "PropertyValue",
              "propertyID": "doi",
              "value": "10.1002/2016ea000172"
            },
            {
              "@type": "PropertyValue",
              "propertyID": "eid",
              "value": "2-s2.0-85014991407"
            }
          ]
        },
        {
          "@type": "CreativeWork",
          "name": "U (V) in metal uranates: a combined experimental and theoretical study of MgUO 4, CrUO 4, and FeUO 4"
        },
        {
          "@type": "CreativeWork",
          "@id": "https://doi.org/10.1039/c6dt00066e",
          "name": "U(v) in metal uranates: A combined experimental and theoretical study of MgUO<inf>4</inf>, CrUO<inf>4</inf>, and FeUO<inf>4</inf>",
          "identifier": [
            {
              "@type": "PropertyValue",
              "propertyID": "doi",
              "value": "10.1039/c6dt00066e"
            },
            {
              "@type": "PropertyValue",
              "propertyID": "eid",
              "value": "2-s2.0-84960357588"
            }
          ]
        },
        {
          "@type": "CreativeWork",
          "name": "Use of multivariate analysis for synchrotron micro-XANES analysis of iron valence state in amphiboles"
        },
        {
          "@type": "CreativeWork",
          "@id": "https://doi.org/10.2138/am-2016-5556",
          "name": "Use of multivariate analysis for synchrotron micro-XANES analysis of iron valence state in amphiboles",
          "identifier": [
            {
              "@type": "PropertyValue",
              "propertyID": "eid",
              "value": "2-s2.0-84975282701"
            },
            {
              "@type": "PropertyValue",
              "propertyID": "doi",
              "value": "10.2138/am-2016-5556"
            }
          ]
        },
        {
          "@type": "CreativeWork",
          "name": "Charge-Coupled Substituted Garnets (Y3--x Ca0. 5 x M0. 5 x) Fe5O12 (M= Ce, Th): Structure and Stability as Crystalline Nuclear Waste Forms"
        },
        {
          "@type": "CreativeWork",
          "@id": "https://doi.org/10.1021/acs.inorgchem.5b00444",
          "name": "Charge-coupled substituted garnets (Y&lt;inf&gt;3-x&lt;/inf&gt;Ca&lt;inf&gt;0.5x&lt;/inf&gt;M&lt;inf&gt;0.5x&lt;/inf&gt;)Fe&lt;inf&gt;5&lt;/inf&gt;O&lt;inf&gt;12&lt;/inf&gt; (M = Ce, Th): Structure and stability as crystalline nuclear waste forms",
          "identifier": [
            {
              "@type": "PropertyValue",
              "propertyID": "doi",
              "value": "10.1021/acs.inorgchem.5b00444"
            },
            {
              "@type": "PropertyValue",
              "propertyID": "eid",
              "value": "2-s2.0-84928343415"
            }
          ]
        },
        {
          "@type": "CreativeWork",
          "name": "Context as a Structure of Emergence: An Inquiry from a Phenomenological Point of View."
        },
        {
          "@type": "CreativeWork",
          "@id": "https://doi.org/10.1073/pnas.1511664112",
          "name": "Correction: Identification of hydroxyapatite spherules provides new insight into subretinal pigment epithelial deposit formation in the aging eye (Proceedings of the National Academy of Sciences of the United States of America (2015) 112, 5, (1565-1570) DOI: 10.1073/pnas.1413347112)",
          "identifier": [
            {
              "@type": "PropertyValue",
              "propertyID": "doi",
              "value": "10.1073/pnas.1511664112"
            },
            {
              "@type": "PropertyValue",
              "propertyID": "eid",
              "value": "2-s2.0-84937714210"
            }
          ]
        },
        {
          "@type": "CreativeWork",
          "name": "Elemental Composition of Primitive Anhydrous IDPs"
        },
        {
          "@type": "CreativeWork",
          "name": "Evaluating the cement stabilization of arsenic-bearing iron wastes from drinking water treatment"
        },
        {
          "@type": "CreativeWork",
          "@id": "https://doi.org/10.1016/j.jhazmat.2015.07.051",
          "name": "Evaluating the cement stabilization of arsenic-bearing iron wastes from drinking water treatment",
          "identifier": [
            {
              "@type": "PropertyValue",
              "propertyID": "doi",
              "value": "10.1016/j.jhazmat.2015.07.051"
            },
            {
              "@type": "PropertyValue",
              "propertyID": "eid",
              "value": "2-s2.0-84952007909"
            }
          ]
        },
        {
          "@type": "CreativeWork",
          "name": "Evidence for Metal Anions in Silicate Melts: Implications for Pt Partitioning, Nanonuggets and Core Formation"
        },
        {
          "@type": "CreativeWork",
          "@id": "https://doi.org/10.1364/oe.23.009014",
          "name": "Hyperspectral image reconstruction for X-ray fluorescence tomography",
          "identifier": [
            {
              "@type": "PropertyValue",
              "propertyID": "eid",
              "value": "2-s2.0-84928041617"
            },
            {
              "@type": "PropertyValue",
              "propertyID": "doi",
              "value": "10.1364/oe.23.009014"
            }
          ]
        },
        {
          "@type": "CreativeWork",
          "name": "Hyperspectral image reconstruction for x-ray fluorescence tomography"
        },
        {
          "@type": "CreativeWork",
          "name": "Identification of hydroxyapatite spherules provides new insight into subretinal pigment epithelial deposit formation in the aging eye"
        },
        {
          "@type": "CreativeWork",
          "@id": "https://doi.org/10.1073/pnas.1413347112",
          "name": "Identification of hydroxyapatite spherules provides new insight into subretinal pigment epithelial deposit formation in the aging eye",
          "identifier": [
            {
              "@type": "PropertyValue",
              "propertyID": "eid",
              "value": "2-s2.0-84922263543"
            },
            {
              "@type": "PropertyValue",
              "propertyID": "doi",
              "value": "10.1073/pnas.1413347112"
            }
          ]
        },
        {
          "@type": "CreativeWork",
          "name": "In situ Measurement of Ferric Iron in Luna Glasses Using Fe-XAS: Implications for Lunar Eruption Mechanisms"
        },
        {
          "@type": "CreativeWork",
          "name": "Preliminary calibration for measuring ferric iron in silicate glasses: a M\u00f6ssbauer and X-ray absorption spectroscopy study"
        },
        {
          "@type": "CreativeWork",
          "name": "Redox evolution of silicic magmas: Insights from XANES measurements of Ce valence in Bishop Tuff zircons"
        },
        {
          "@type": "CreativeWork",
          "@id": "https://doi.org/10.1016/j.chemgeo.2015.02.033",
          "name": "Redox evolution of silicic magmas: Insights from XANES measurements of Ce valence in Bishop Tuff zircons",
          "identifier": [
            {
              "@type": "PropertyValue",
              "propertyID": "doi",
              "value": "10.1016/j.chemgeo.2015.02.033"
            },
            {
              "@type": "PropertyValue",
              "propertyID": "eid",
              "value": "2-s2.0-84938513886"
            }
          ]
        },
        {
          "@type": "CreativeWork",
          "@id": "https://doi.org/10.1021/acs.est.5b01147",
          "name": "Speciation Matters: Bioavailability of Silver and Silver Sulfide Nanoparticles to Alfalfa (Medicago sativa)",
          "identifier": [
            {
              "@type": "PropertyValue",
              "propertyID": "doi",
              "value": "10.1021/acs.est.5b01147"
            },
            {
              "@type": "PropertyValue",
              "propertyID": "eid",
              "value": "2-s2.0-84937458558"
            }
          ]
        },
        {
          "@type": "CreativeWork",
          "name": "Speciation matters: Bioavailability of silver and silver sulfide nanoparticles to alfalfa (Medicago sativa)"
        },
        {
          "@type": "CreativeWork",
          "name": "Spectroscopic evidence of uranium immobilization in acidic wetlands by natural organic matter and plant roots"
        },
        {
          "@type": "CreativeWork",
          "@id": "https://doi.org/10.1021/es505369g",
          "name": "Spectroscopic evidence of uranium immobilization in acidic wetlands by natural organic matter and plant roots",
          "identifier": [
            {
              "@type": "PropertyValue",
              "propertyID": "eid",
              "value": "2-s2.0-84924056262"
            },
            {
              "@type": "PropertyValue",
              "propertyID": "doi",
              "value": "10.1021/es505369g"
            }
          ]
        },
        {
          "@type": "CreativeWork",
          "name": "The effect of ore roasting on arsenic oxidation state and solid phase speciation in gold mine tailings"
        },
        {
          "@type": "CreativeWork",
          "@id": "https://doi.org/10.1144/geochem2013-238",
          "name": "The effect of ore roasting on arsenic oxidation state and solid phase speciation in gold mine tailings",
          "identifier": [
            {
              "@type": "PropertyValue",
              "propertyID": "doi",
              "value": "10.1144/geochem2013-238"
            },
            {
              "@type": "PropertyValue",
              "propertyID": "eid",
              "value": "2-s2.0-84947422878"
            }
          ]
        },
        {
          "@type": "CreativeWork",
          "name": "A novel mechanism for initiation of sub-RPE deposits"
        },
        {
          "@type": "CreativeWork",
          "name": "Application of hard X-ray microprobe methods to clay-rich materials"
        },
        {
          "@type": "CreativeWork",
          "name": "Assessing heavy metal exposure in Renaissance Europe using synchrotron microbeam techniques"
        },
        {
          "@type": "CreativeWork",
          "@id": "https://doi.org/10.1016/j.jas.2014.08.019",
          "name": "Assessing heavy metal exposure in Renaissance Europe using synchrotron microbeam techniques",
          "identifier": [
            {
              "@type": "PropertyValue",
              "propertyID": "eid",
              "value": "2-s2.0-84907189594"
            },
            {
              "@type": "PropertyValue",
              "propertyID": "doi",
              "value": "10.1016/j.jas.2014.08.019"
            }
          ]
        },
        {
          "@type": "CreativeWork",
          "@id": "https://doi.org/10.1021/cm403444f",
          "name": "Cerium substitution in yttrium iron garnet: Valence state, structure, and energetics",
          "identifier": [
            {
              "@type": "PropertyValue",
              "propertyID": "eid",
              "value": "2-s2.0-84893453774"
            },
            {
              "@type": "PropertyValue",
              "propertyID": "doi",
              "value": "10.1021/cm403444f"
            }
          ]
        },
        {
          "@type": "CreativeWork",
          "name": "Cerium substitution in yttrium iron garnet: valence state, structure, and energetics"
        },
        {
          "@type": "CreativeWork",
          "name": "Cu solubility and complexation in high-temperature aqueous fluids"
        },
        {
          "@type": "CreativeWork",
          "name": "Deciphering Earth History: Mapping the Micron-Scale Spatial Distribution and Speciation of Sulfur in Ordovician Carbonates"
        },
        {
          "@type": "CreativeWork",
          "name": "Fe3+ partitioning during basalt differentiation on Mars: insights into the oxygen fugacity of the shergottite mantle source (s)."
        },
        {
          "@type": "CreativeWork",
          "name": "Possible Identification of Surviving Interplanetary Dust Particles in a Mars Regolith Breccia"
        },
        {
          "@type": "CreativeWork",
          "name": "Retention and chemical speciation of uranium in an oxidized wetland sediment from the Savannah River Site"
        },
        {
          "@type": "CreativeWork",
          "@id": "https://doi.org/10.1016/j.jenvrad.2013.10.017",
          "name": "Retention and chemical speciation of uranium in an oxidized wetland sediment from the Savannah River Site",
          "identifier": [
            {
              "@type": "PropertyValue",
              "propertyID": "eid",
              "value": "2-s2.0-84896730621"
            },
            {
              "@type": "PropertyValue",
              "propertyID": "doi",
              "value": "10.1016/j.jenvrad.2013.10.017"
            }
          ]
        },
        {
          "@type": "CreativeWork",
          "name": "Scientific data exchange: a schema for HDF5-based storage of raw and analyzed data"
        },
        {
          "@type": "CreativeWork",
          "name": "Variation in XANES in biotite as a function of orientation, crystal composition, and metamorphic history"
        },
        {
          "@type": "CreativeWork",
          "@id": "https://doi.org/10.1515/am.2014.4222",
          "name": "Variation in XANES in biotite as a function of orientation, crystal composition, and metamorphic history",
          "identifier": [
            {
              "@type": "PropertyValue",
              "propertyID": "doi",
              "value": "10.1515/am.2014.4222"
            },
            {
              "@type": "PropertyValue",
              "propertyID": "eid",
              "value": "2-s2.0-84894568571"
            }
          ]
        },
        {
          "@type": "CreativeWork",
          "name": "Abiotic reductive immobilization of U (VI) by biogenic mackinawite"
        },
        {
          "@type": "CreativeWork",
          "@id": "https://doi.org/10.1021/es304025x",
          "name": "Abiotic reductive immobilization of U(VI) by biogenic mackinawite",
          "identifier": [
            {
              "@type": "PropertyValue",
              "propertyID": "doi",
              "value": "10.1021/es304025x"
            },
            {
              "@type": "PropertyValue",
              "propertyID": "eid",
              "value": "2-s2.0-84874632224"
            }
          ]
        },
        {
          "@type": "CreativeWork",
          "name": "Cu and Ni solubility in high-temperature aqueous fluids"
        },
        {
          "@type": "CreativeWork",
          "name": "Focus on Synchrotron Education Initiatives"
        },
        {
          "@type": "CreativeWork",
          "@id": "https://doi.org/10.1080/08940886.2013.753768",
          "name": "Focus on Synchrotron Education Initiatives",
          "identifier": [
            {
              "@type": "PropertyValue",
              "propertyID": "eid",
              "value": "2-s2.0-84873717077"
            },
            {
              "@type": "PropertyValue",
              "propertyID": "doi",
              "value": "10.1080/08940886.2013.753768"
            }
          ]
        },
        {
          "@type": "CreativeWork",
          "name": "Heavy metal distribution in an urban wetland impacted by combined sewer overflow"
        },
        {
          "@type": "CreativeWork",
          "@id": "https://doi.org/10.1016/j.chemosphere.2013.07.077",
          "name": "Heavy metal distribution in an urban wetland impacted by combined sewer overflow",
          "identifier": [
            {
              "@type": "PropertyValue",
              "propertyID": "doi",
              "value": "10.1016/j.chemosphere.2013.07.077"
            },
            {
              "@type": "PropertyValue",
              "propertyID": "eid",
              "value": "2-s2.0-84886420025"
            }
          ]
        },
        {
          "@type": "CreativeWork",
          "name": "In situ crystal chemical study of solid diamond inclusions from Quaternary alluvial deposit in the Siberian craton"
        },
        {
          "@type": "CreativeWork",
          "name": "New Developments and Geoscience Applications of Synchrotron Computed Microtomography"
        },
        {
          "@type": "CreativeWork",
          "name": "Oxidation of added Mn (II) in soils observed by XANES spectroscopy and Cr (III) oxidation"
        },
        {
          "@type": "CreativeWork",
          "@id": "https://doi.org/10.2136/sssaj2013.04.0151",
          "name": "Oxidation of added mn(2) in soils observed by xanes spectroscopy and cr(3) oxidation",
          "identifier": [
            {
              "@type": "PropertyValue",
              "propertyID": "doi",
              "value": "10.2136/sssaj2013.04.0151"
            },
            {
              "@type": "PropertyValue",
              "propertyID": "eid",
              "value": "2-s2.0-84891939238"
            }
          ]
        },
        {
          "@type": "CreativeWork",
          "name": "Redox systematics of martian magmas with implications for magnetite stability"
        },
        {
          "@type": "CreativeWork",
          "@id": "https://doi.org/10.2138/am.2013.4251",
          "name": "Redox systematics of martian magmas with implications for magnetite stability",
          "identifier": [
            {
              "@type": "PropertyValue",
              "propertyID": "doi",
              "value": "10.2138/am.2013.4251"
            },
            {
              "@type": "PropertyValue",
              "propertyID": "eid",
              "value": "2-s2.0-84875753533"
            }
          ]
        },
        {
          "@type": "CreativeWork",
          "name": "Sixteenth Century clinical neurology; heavy metal toxicity and biologic rhythms"
        },
        {
          "@type": "CreativeWork",
          "@id": "https://doi.org/10.1080/08940886.2013.771072",
          "name": "Trends in X-ray Fluorescence Microscopy",
          "identifier": [
            {
              "@type": "PropertyValue",
              "propertyID": "eid",
              "value": "2-s2.0-84875837713"
            },
            {
              "@type": "PropertyValue",
              "propertyID": "doi",
              "value": "10.1080/08940886.2013.771072"
            }
          ]
        },
        {
          "@type": "CreativeWork",
          "name": "Trends in X-ray fluorescence microscopy"
        },
        {
          "@type": "CreativeWork",
          "name": "Update to New Homogeneous Standards by Atomic Layer Deposition for Synchrotron X-Ray Fluorescence and Absorption Spectroscopies"
        },
        {
          "@type": "CreativeWork",
          "name": "Using the NSLS for Introducing Synchrotrons into the Classroom (InSynC)"
        },
        {
          "@type": "CreativeWork",
          "@id": "https://doi.org/10.1080/08940886.2013.753786",
          "name": "Using the NSLS for Introducing Synchrotrons into the Classroom (InSynC)",
          "identifier": [
            {
              "@type": "PropertyValue",
              "propertyID": "doi",
              "value": "10.1080/08940886.2013.753786"
            },
            {
              "@type": "PropertyValue",
              "propertyID": "eid",
              "value": "2-s2.0-84873741199"
            }
          ]
        },
        {
          "@type": "CreativeWork",
          "name": "Accurate determination of ferric iron in garnets by bulk M\u00f6ssbauer spectroscopy and synchrotron micro-XANES"
        },
        {
          "@type": "CreativeWork",
          "@id": "https://doi.org/10.2138/am.2012.4107",
          "name": "Accurate determination of ferric iron in garnets by bulk M\u00f6ssbauer spectroscopy and synchrotron micro-XANES",
          "identifier": [
            {
              "@type": "PropertyValue",
              "propertyID": "doi",
              "value": "10.2138/am.2012.4107"
            },
            {
              "@type": "PropertyValue",
              "propertyID": "eid",
              "value": "2-s2.0-84867377984"
            }
          ]
        },
        {
          "@type": "CreativeWork",
          "name": "Fe-METAL IN A LARGE CHONDRITIC CLUSTER IDP"
        },
        {
          "@type": "CreativeWork",
          "name": "Fe-Metal in a Large Cluster IDP"
        },
        {
          "@type": "CreativeWork",
          "name": "Five hundred years of mercury exposure and adaptation"
        },
        {
          "@type": "CreativeWork",
          "@id": "https://doi.org/10.1155/2012/472858",
          "name": "Five hundred years of mercury exposure and adaptation",
          "identifier": [
            {
              "@type": "PropertyValue",
              "propertyID": "doi",
              "value": "10.1155/2012/472858"
            },
            {
              "@type": "PropertyValue",
              "propertyID": "eid",
              "value": "2-s2.0-84864925278"
            }
          ]
        },
        {
          "@type": "CreativeWork",
          "@id": "https://doi.org/10.1039/c2mt20168b",
          "name": "Getting to the core of platinum drug bio-distributions: The penetration of anti-cancer platinum complexes into spheroid tumour models",
          "identifier": [
            {
              "@type": "PropertyValue",
              "propertyID": "eid",
              "value": "2-s2.0-84867869074"
            },
            {
              "@type": "PropertyValue",
              "propertyID": "doi",
              "value": "10.1039/c2mt20168b"
            }
          ]
        },
        {
          "@type": "CreativeWork",
          "name": "Getting to the core of platinum drug bio-distributions: the penetration of anti-cancer platinum complexes into spheroid tumour models"
        },
        {
          "@type": "CreativeWork",
          "name": "In situ distribution of metallic platinum in tumor tissues after intraperitoneal platinum chemotherapy assessed by digital synchrotron-abetted x-ray fluorescence microscopy."
        },
        {
          "@type": "CreativeWork",
          "name": "New Homogeneous Standards by Atomic Layer Deposition for Synchrotron X-ray Fluorescence and Absorption Spectroscopies."
        },
        {
          "@type": "CreativeWork",
          "name": "Redox History of Early Solar System Planetismals Recorded in the D; Orbigny Angrite"
        },
        {
          "@type": "CreativeWork",
          "name": "Redox History of Early Solar System Planetismals Recorded in the D; Orbigny Angrite"
        },
        {
          "@type": "CreativeWork",
          "@id": "https://doi.org/10.1021/cm3005375",
          "name": "Scanning X-ray fluorescence imaging study of lithium insertion into copper based oxysulfides for Li-Ion batteries",
          "identifier": [
            {
              "@type": "PropertyValue",
              "propertyID": "doi",
              "value": "10.1021/cm3005375"
            },
            {
              "@type": "PropertyValue",
              "propertyID": "eid",
              "value": "2-s2.0-84864353606"
            }
          ]
        },
        {
          "@type": "CreativeWork",
          "name": "Scanning X-ray fluorescence imaging study of lithium insertion into copper based oxysulfides for Li-ion batteries"
        },
        {
          "@type": "CreativeWork",
          "name": "The role of CAX1 and CAX3 in elemental distribution and abundance in Arabidopsis seed"
        },
        {
          "@type": "CreativeWork",
          "@id": "https://doi.org/10.1104/pp.111.184812",
          "name": "The role of CAX1 and CAX3 in elemental distribution and abundance in Arabidopsis seed",
          "identifier": [
            {
              "@type": "PropertyValue",
              "propertyID": "eid",
              "value": "2-s2.0-84855293822"
            },
            {
              "@type": "PropertyValue",
              "propertyID": "doi",
              "value": "10.1104/pp.111.184812"
            }
          ]
        },
        {
          "@type": "CreativeWork",
          "name": "Thickness measurements of nanoscale brine films on silica surfaces under geologic CO2sequestration conditions using synchrotron X-ray fluorescence"
        },
        {
          "@type": "CreativeWork",
          "@id": "https://doi.org/10.1029/2012wr012200",
          "name": "Thickness measurements of nanoscale brine films on silica surfaces under geologic CO<inf>2</inf> sequestration conditions using synchrotron X-ray fluorescence",
          "identifier": [
            {
              "@type": "PropertyValue",
              "propertyID": "eid",
              "value": "2-s2.0-84867210907"
            },
            {
              "@type": "PropertyValue",
              "propertyID": "doi",
              "value": "10.1029/2012wr012200"
            }
          ]
        },
        {
          "@type": "CreativeWork",
          "name": "Thicknesses of Nanoscale Brine Films on Mineral Surfaces Under Geologic CO2 Sequestration Conditions Measured with Synchrotron X-ray Fluorescence"
        },
        {
          "@type": "CreativeWork",
          "name": "Titanium and iron in lung of a soldier with nonspecific interstitial pneumonitis and bronchiolitis after returning from Iraq"
        },
        {
          "@type": "CreativeWork",
          "@id": "https://doi.org/10.1097/jom.0b013e31824327ca",
          "name": "Titanium and iron in lung of a soldier with nonspecific interstitial pneumonitis and bronchiolitis after returning from Iraq",
          "identifier": [
            {
              "@type": "PropertyValue",
              "propertyID": "eid",
              "value": "2-s2.0-84855798953"
            },
            {
              "@type": "PropertyValue",
              "propertyID": "doi",
              "value": "10.1097/jom.0b013e31824327ca"
            }
          ]
        },
        {
          "@type": "CreativeWork",
          "name": "Unusual Iron Redox Systematics of Martian Magmas"
        },
        {
          "@type": "CreativeWork",
          "name": "Biologic Rhythms in Ancient Hair"
        },
        {
          "@type": "CreativeWork",
          "name": "Biologic rhythms derived from Siberian Mammoths' Hairs"
        },
        {
          "@type": "CreativeWork",
          "@id": "https://doi.org/10.1371/journal.pone.0021705",
          "name": "Biologic rhythms derived from Siberian Mammoths' Hairs",
          "identifier": [
            {
              "@type": "PropertyValue",
              "propertyID": "eid",
              "value": "2-s2.0-79959634757"
            },
            {
              "@type": "PropertyValue",
              "propertyID": "doi",
              "value": "10.1371/journal.pone.0021705"
            }
          ]
        },
        {
          "@type": "CreativeWork",
          "name": "Brine Films Thickness on Silica Surfaces Under High Pressure Geologic CO2 Sequestration Conditions with Synchrotron X-ray Fluorescence"
        },
        {
          "@type": "CreativeWork",
          "@id": "https://doi.org/10.2138/am.2011.3800",
          "name": "Differences in Fe-redox for asbestiform and nonasbestiform amphiboles from the former vermiculite mine, near Libby, Montana, U.S.A.",
          "identifier": [
            {
              "@type": "PropertyValue",
              "propertyID": "eid",
              "value": "2-s2.0-80053242390"
            },
            {
              "@type": "PropertyValue",
              "propertyID": "doi",
              "value": "10.2138/am.2011.3800"
            }
          ]
        },
        {
          "@type": "CreativeWork",
          "name": "Differences in Fe-redox for asbestiform and nonasbestiform amphiboles from the former vermiculite mine, near Libby, Montana, USA"
        },
        {
          "@type": "CreativeWork",
          "name": "Direct characterization of airborne particles associated with arsenic-rich mine tailings: Particle size, mineralogy and texture"
        },
        {
          "@type": "CreativeWork",
          "@id": "https://doi.org/10.1016/j.apgeochem.2011.04.021",
          "name": "Direct characterization of airborne particles associated with arsenic-rich mine tailings: Particle size, mineralogy and texture",
          "identifier": [
            {
              "@type": "PropertyValue",
              "propertyID": "eid",
              "value": "2-s2.0-80051947751"
            },
            {
              "@type": "PropertyValue",
              "propertyID": "doi",
              "value": "10.1016/j.apgeochem.2011.04.021"
            }
          ]
        },
        {
          "@type": "CreativeWork",
          "name": "Direct identification of metal compounds in contaminated soil, mine tailings, lake sediments and house dust using synchrotron-based microanalysis"
        },
        {
          "@type": "CreativeWork",
          "name": "Energy, Enthusiasm, Cooperation, and Commitment Characterize NUFO Annual Meeting"
        },
        {
          "@type": "CreativeWork",
          "@id": "https://doi.org/10.1080/08940886.2011.618091",
          "name": "Energy, enthusiasm, cooperation, and commitment characterize NUFO annual meeting",
          "identifier": [
            {
              "@type": "PropertyValue",
              "propertyID": "doi",
              "value": "10.1080/08940886.2011.618091"
            },
            {
              "@type": "PropertyValue",
              "propertyID": "eid",
              "value": "2-s2.0-80053445328"
            }
          ]
        },
        {
          "@type": "CreativeWork",
          "name": "Ex Situ and In Situ Scanning X-Ray Fluorescence Imaging Study of Lithium Insertion into Sr2MnO2Cu4-$\u03b4$S3 for Li-Ion Batteries"
        },
        {
          "@type": "CreativeWork",
          "name": "Fe-XANES Measurement of an Anhydrous Cluster IDP"
        },
        {
          "@type": "CreativeWork",
          "name": "Identification and characterization of arsenic and metal compounds in contaminated soil, mine tailings, and house dust using synchrotron-based microanalysis"
        },
        {
          "@type": "CreativeWork",
          "@id": "https://doi.org/10.1080/10807039.2011.618415",
          "name": "Identification and characterization of arsenic and metal compounds in contaminated soil, mine tailings, and house dust using synchrotron-based microanalysis",
          "identifier": [
            {
              "@type": "PropertyValue",
              "propertyID": "doi",
              "value": "10.1080/10807039.2011.618415"
            },
            {
              "@type": "PropertyValue",
              "propertyID": "eid",
              "value": "2-s2.0-84859456590"
            }
          ]
        },
        {
          "@type": "CreativeWork",
          "name": "Increased brain iron coincides with early plaque formation in a mouse model of Alzheimer's disease"
        },
        {
          "@type": "CreativeWork",
          "@id": "https://doi.org/10.1016/j.neuroimage.2010.11.073",
          "name": "Increased brain iron coincides with early plaque formation in a mouse model of Alzheimer's disease",
          "identifier": [
            {
              "@type": "PropertyValue",
              "propertyID": "doi",
              "value": "10.1016/j.neuroimage.2010.11.073"
            },
            {
              "@type": "PropertyValue",
              "propertyID": "eid",
              "value": "2-s2.0-78951481093"
            }
          ]
        },
        {
          "@type": "CreativeWork",
          "name": "Leishmaniasis in 15th century Italian nobles and mercury treatment"
        },
        {
          "@type": "CreativeWork",
          "name": "MULTIVARIATE ANALYSIS OF XANES SPECTRA FOR MEASUREMENT OF FERRIC IRON IN GARNETS, AMPHIBOLES, MICAS, AND GLASSES"
        },
        {
          "@type": "CreativeWork",
          "name": "Macroscopic and molecular-scale assessment of soil lead contamination impacted by seasonal dove hunting activities"
        },
        {
          "@type": "CreativeWork",
          "@id": "https://doi.org/10.1007/s11368-011-0374-z",
          "name": "Macroscopic and molecular-scale assessment of soil lead contamination impacted by seasonal dove hunting activities",
          "identifier": [
            {
              "@type": "PropertyValue",
              "propertyID": "doi",
              "value": "10.1007/s11368-011-0374-z"
            },
            {
              "@type": "PropertyValue",
              "propertyID": "eid",
              "value": "2-s2.0-84860405613"
            }
          ]
        },
        {
          "@type": "CreativeWork",
          "name": "Phloem transport of arsenic species from flag leaf to grain during grain filling"
        },
        {
          "@type": "CreativeWork",
          "@id": "https://doi.org/10.1111/j.1469-8137.2011.03789.x",
          "name": "Phloem transport of arsenic species from flag leaf to grain during grain filling",
          "identifier": [
            {
              "@type": "PropertyValue",
              "propertyID": "doi",
              "value": "10.1111/j.1469-8137.2011.03789.x"
            },
            {
              "@type": "PropertyValue",
              "propertyID": "eid",
              "value": "2-s2.0-80052385682"
            }
          ]
        },
        {
          "@type": "CreativeWork",
          "name": "Sulfides from Martian and Lunar Basalts: Comparative Chemistry for Ni, Co, Cu, and Se. Range of Point Analyses Per Sample"
        },
        {
          "@type": "CreativeWork",
          "name": "Sulfides from martian and lunar basalts: Comparative chemistry for Ni, Co, Cu, and Se"
        },
        {
          "@type": "CreativeWork",
          "@id": "https://doi.org/10.2138/am.2011.3724",
          "name": "Sulfides from martian and lunar basalts: Comparative chemistry for Ni, Co, Cu, and Se",
          "identifier": [
            {
              "@type": "PropertyValue",
              "propertyID": "eid",
              "value": "2-s2.0-79958256991"
            },
            {
              "@type": "PropertyValue",
              "propertyID": "doi",
              "value": "10.2138/am.2011.3724"
            }
          ]
        },
        {
          "@type": "CreativeWork",
          "name": "Sulfides from martian and lunar basalts: comparative chemistry for Ni, Co, Cu, and Se. Average Sample Analyses and WDS mapping of grains"
        },
        {
          "@type": "CreativeWork",
          "name": "Synchrotron micro-XANES analysis of Fe3+ in oriented amphiboles"
        },
        {
          "@type": "CreativeWork",
          "name": "Synchrotron micro-XANES analysis of Fe3+ in oriented amphiboles"
        },
        {
          "@type": "CreativeWork",
          "name": "The sub-micron resolution X-ray spectroscopy beamline at NSLS-II"
        },
        {
          "@type": "CreativeWork",
          "@id": "https://doi.org/10.1016/j.nima.2010.11.154",
          "name": "The sub-micron resolution X-ray spectroscopy beamline at NSLS-II",
          "identifier": [
            {
              "@type": "PropertyValue",
              "propertyID": "doi",
              "value": "10.1016/j.nima.2010.11.154"
            },
            {
              "@type": "PropertyValue",
              "propertyID": "eid",
              "value": "2-s2.0-79961170295"
            }
          ]
        },
        {
          "@type": "CreativeWork",
          "name": "Assessment and control of organic and other contaminants associated with the Stardust sample return from comet 81P/Wild 2"
        },
        {
          "@type": "CreativeWork",
          "@id": "https://doi.org/10.1111/j.1945-5100.2010.01031.x",
          "name": "Assessment and control of organic and other contaminants associated with the Stardust sample return from comet 81P/Wild 2",
          "identifier": [
            {
              "@type": "PropertyValue",
              "propertyID": "eid",
              "value": "2-s2.0-77954637404"
            },
            {
              "@type": "PropertyValue",
              "propertyID": "doi",
              "value": "10.1111/j.1945-5100.2010.01031.x"
            }
          ]
        },
        {
          "@type": "CreativeWork",
          "name": "Characterization of geosynthetic clay liner bentonite using micro-analytical methods"
        },
        {
          "@type": "CreativeWork",
          "@id": "https://doi.org/10.1016/j.apgeochem.2010.04.011",
          "name": "Characterization of geosynthetic clay liner bentonite using micro-analytical methods",
          "identifier": [
            {
              "@type": "PropertyValue",
              "propertyID": "doi",
              "value": "10.1016/j.apgeochem.2010.04.011"
            },
            {
              "@type": "PropertyValue",
              "propertyID": "eid",
              "value": "2-s2.0-77954864340"
            }
          ]
        },
        {
          "@type": "CreativeWork",
          "name": "DISTINGUISHING GEOGENIC FROM ANTHROPOGENIC PARTICLES IN DUST USING SYNCHROTRON MICROANALYSIS"
        },
        {
          "@type": "CreativeWork",
          "name": "GEOCHEMICAL CHARACTERIZATION OF BIOSIGNATURES IN SUBSEAFLOOR VOLCANIC GLASSES USING SYNCHROTRON-BASED TECHNIQUES"
        },
        {
          "@type": "CreativeWork",
          "@id": "https://doi.org/10.1016/j.jaad.2009.07.018",
          "name": "Gadolinium deposition in nephrogenic systemic fibrosis: An examination of tissue using synchrotron x-ray fluorescence spectroscopy",
          "identifier": [
            {
              "@type": "PropertyValue",
              "propertyID": "doi",
              "value": "10.1016/j.jaad.2009.07.018"
            },
            {
              "@type": "PropertyValue",
              "propertyID": "eid",
              "value": "2-s2.0-71649114117"
            }
          ]
        },
        {
          "@type": "CreativeWork",
          "name": "Gadolinium deposition in nephrogenic systemic fibrosis: an examination of tissue using synchrotron x-ray fluorescence spectroscopy"
        },
        {
          "@type": "CreativeWork",
          "name": "Geochronology of Southwestern Connecticut"
        },
        {
          "@type": "CreativeWork",
          "name": "IRON REDOX IN FIBERS AND FRAGMENTS OF AMPHIBOLES FROM THE FORMER VERMICULITE MINE NEAR LIBBY, MONTANA"
        },
        {
          "@type": "CreativeWork",
          "name": "JAm ACAD DERMATOL JANUARY 2010 A5"
        },
        {
          "@type": "CreativeWork",
          "@id": "https://doi.org/10.1029/2010gb003794",
          "name": "Natural organobromine in marine sediments: New evidence of biogeochemical Br cycling",
          "identifier": [
            {
              "@type": "PropertyValue",
              "propertyID": "eid",
              "value": "2-s2.0-78649653852"
            },
            {
              "@type": "PropertyValue",
              "propertyID": "doi",
              "value": "10.1029/2010gb003794"
            }
          ]
        },
        {
          "@type": "CreativeWork",
          "name": "Natural organobromine in marine sediments: new evidence of biogeochemical Br cycling"
        },
        {
          "@type": "CreativeWork",
          "name": "Nondestructive XRF and Quantitative Volumetric Image Analysis of Stardust Tracks 140, 151 & 152"
        },
        {
          "@type": "CreativeWork",
          "name": "Oxidation of added Mn (II) in soils as observed by the Cr Oxidation Test and Mn K alpha XANES spectroscopy"
        },
        {
          "@type": "CreativeWork",
          "name": "Petrography, trace element mapping and U-Pb systematics in Triassic tufa calcite of the Newark Basin"
        },
        {
          "@type": "CreativeWork",
          "name": "Practical application of synchrotron-based hard X-ray microprobes in soil sciences"
        },
        {
          "@type": "CreativeWork",
          "name": "Practical application of synchrotron-based hard X-ray microprobes in soil sciences",
          "identifier": {
            "@type": "PropertyValue",
            "propertyID": "eid",
            "value": "2-s2.0-77955793690"
          }
        },
        {
          "@type": "CreativeWork",
          "name": "Prospects for nanoscale, hard x-ray studies of extraterrestrial materials"
        },
        {
          "@type": "CreativeWork",
          "@id": "https://doi.org/10.1104/pp.110.159103",
          "name": "Successful reproduction requires the function of Arabidopsis YELLOW STRIPE-LIKE1 and YELLOW STRIPE-LIKE3 metal-nicotianamine transporters in both vegetative and reproductive structures",
          "identifier": [
            {
              "@type": "PropertyValue",
              "propertyID": "doi",
              "value": "10.1104/pp.110.159103"
            },
            {
              "@type": "PropertyValue",
              "propertyID": "eid",
              "value": "2-s2.0-77956696826"
            }
          ]
        },
        {
          "@type": "CreativeWork",
          "name": "Successful reproduction requires the function of Arabidopsis Yellow Stripe-Like1 and Yellow Stripe-Like3 metal-nicotianamine transporters in both vegetative and reproductive structures"
        },
        {
          "@type": "CreativeWork",
          "@id": "https://doi.org/10.1007/s00410-010-0505-3",
          "name": "TitaniQ under pressure: The effect of pressure and temperature on the solubility of Ti in quartz",
          "identifier": [
            {
              "@type": "PropertyValue",
              "propertyID": "eid",
              "value": "2-s2.0-77957586223"
            },
            {
              "@type": "PropertyValue",
              "propertyID": "doi",
              "value": "10.1007/s00410-010-0505-3"
            }
          ]
        },
        {
          "@type": "CreativeWork",
          "name": "TitaniQ under pressure: the effect of pressure and temperature on the solubility of Ti in quartz"
        },
        {
          "@type": "CreativeWork",
          "@id": "https://doi.org/10.1016/j.asr.2008.06.005",
          "name": "A synchrotron-based facility for the in-situ location, chemical and mineralogical characterization of \u223c10 \u03bcm particles captured in aerogel",
          "identifier": [
            {
              "@type": "PropertyValue",
              "propertyID": "doi",
              "value": "10.1016/j.asr.2008.06.005"
            },
            {
              "@type": "PropertyValue",
              "propertyID": "eid",
              "value": "2-s2.0-58149263167"
            }
          ]
        },
        {
          "@type": "CreativeWork",
          "name": "A synchrotron-based facility for the in-situ location, chemical and mineralogical characterization of~ 10 $\u03bc$m particles captured in aerogel"
        },
        {
          "@type": "CreativeWork",
          "name": "Amyloid plaques in PSAPP mice bind less metal than plaques in human Alzheimer's disease"
        },
        {
          "@type": "CreativeWork",
          "@id": "https://doi.org/10.1016/j.neuroimage.2009.05.063",
          "name": "Amyloid plaques in PSAPP mice bind less metal than plaques in human Alzheimer's disease",
          "identifier": [
            {
              "@type": "PropertyValue",
              "propertyID": "eid",
              "value": "2-s2.0-67651020783"
            },
            {
              "@type": "PropertyValue",
              "propertyID": "doi",
              "value": "10.1016/j.neuroimage.2009.05.063"
            }
          ]
        },
        {
          "@type": "CreativeWork",
          "name": "Arsenic mineralogy of near-surface tailings and soils determined by synchrotron micro-probe and petrographic methods: controls on arsenic behaviour and bioaccessibility in the Nova Scotia gold mining districts"
        },
        {
          "@type": "CreativeWork",
          "name": "Arsenic mineralogy of near-surface tailings and soils: Influences on arsenic mobility and bioaccessibility in the Nova Scotia gold mining districts"
        },
        {
          "@type": "CreativeWork",
          "@id": "https://doi.org/10.3749/canmin.47.3.533",
          "name": "Arsenic mineralogy of near-surface tailings and soils: Influences on arsenic mobility and bioaccessibility in the nova scotia gold mining districts",
          "identifier": [
            {
              "@type": "PropertyValue",
              "propertyID": "eid",
              "value": "2-s2.0-69949145089"
            },
            {
              "@type": "PropertyValue",
              "propertyID": "doi",
              "value": "10.3749/canmin.47.3.533"
            }
          ]
        },
        {
          "@type": "CreativeWork",
          "name": "Characterization of 81P/Wild 2 Particles C2103, 1, 98, 1, 0, C2103, 1, 98, 2, 0, and C2065, 1, 97, 1, 0"
        },
        {
          "@type": "CreativeWork",
          "name": "Characterization of heterogeneities in detector-grade CdZnTe crystals"
        },
        {
          "@type": "CreativeWork",
          "@id": "https://doi.org/10.1557/jmr.2009.0165",
          "name": "Characterization of heterogeneities in detector-grade cdznte crystals",
          "identifier": [
            {
              "@type": "PropertyValue",
              "propertyID": "eid",
              "value": "2-s2.0-65349138983"
            },
            {
              "@type": "PropertyValue",
              "propertyID": "doi",
              "value": "10.1557/jmr.2009.0165"
            }
          ]
        },
        {
          "@type": "CreativeWork",
          "name": "Elemental and mineralogical compositions of cluster IDPs: A possible analog to the Wild 2 particles collected by Stardust"
        },
        {
          "@type": "CreativeWork",
          "name": "High-Resolution Fe XANES Pre-Edge Spectroscopy of Micas"
        },
        {
          "@type": "CreativeWork",
          "name": "High-precision East Pacific Rise, Gal\u00e1pagos Spreading Center, and Gulf of Aden"
        },
        {
          "@type": "CreativeWork",
          "name": "High-precision determination of iron oxidation state in silicate glasses using XANES"
        },
        {
          "@type": "CreativeWork",
          "@id": "https://doi.org/10.1016/j.chemgeo.2009.08.008",
          "name": "High-precision determination of iron oxidation state in silicate glasses using XANES",
          "identifier": [
            {
              "@type": "PropertyValue",
              "propertyID": "doi",
              "value": "10.1016/j.chemgeo.2009.08.008"
            },
            {
              "@type": "PropertyValue",
              "propertyID": "eid",
              "value": "2-s2.0-70350391223"
            }
          ]
        },
        {
          "@type": "CreativeWork",
          "name": "Speciation of micrometer-sized particles using synchrotron X-ray fluorescence, absorption and microdiffraction"
        },
        {
          "@type": "CreativeWork",
          "name": "Synchrotron X-ray 2D and 3D elemental imaging of CdSe/ZnS quantum dot nanoparticles in Daphnia magna"
        },
        {
          "@type": "CreativeWork",
          "@id": "https://doi.org/10.1007/s00216-009-2768-y",
          "name": "Synchrotron X-ray 2D and 3D elemental imaging of CdSe/ZnS quantum dot nanoparticles in Daphnia magna",
          "identifier": [
            {
              "@type": "PropertyValue",
              "propertyID": "doi",
              "value": "10.1007/s00216-009-2768-y"
            },
            {
              "@type": "PropertyValue",
              "propertyID": "eid",
              "value": "2-s2.0-67349273724"
            }
          ]
        },
        {
          "@type": "CreativeWork",
          "name": "Synchrotron X-ray fluorescence microtomography in geo-, cosmo-, and bio-chemistry"
        },
        {
          "@type": "CreativeWork",
          "name": "The fate and speciation of arsenic in soils and poultry production systems"
        },
        {
          "@type": "CreativeWork",
          "name": "Using synchrotron X-ray fluorescence microprobes in the study of metal homeostasis in plants"
        },
        {
          "@type": "CreativeWork",
          "@id": "https://doi.org/10.1093/aob/mcn264",
          "name": "Using synchrotron X-ray fluorescence microprobes in the study of metal homeostasis in plants",
          "identifier": [
            {
              "@type": "PropertyValue",
              "propertyID": "doi",
              "value": "10.1093/aob/mcn264"
            },
            {
              "@type": "PropertyValue",
              "propertyID": "eid",
              "value": "2-s2.0-60749087948"
            }
          ]
        },
        {
          "@type": "CreativeWork",
          "name": "Water and the oxidation state of subduction zone magmas (vol 325, pg 605, 2009)"
        },
        {
          "@type": "CreativeWork",
          "@id": "https://doi.org/10.1080/08940880801988693",
          "name": "Assessing Synchrotron Radiation Capabilities and Future Needs for Molecular Environmental Science and Low-Temperature Geochemistry",
          "identifier": {
            "@type": "PropertyValue",
            "propertyID": "doi",
            "value": "10.1080/08940880801988693"
          }
        },
        {
          "@type": "CreativeWork",
          "name": "Assessing Synchrotron Radiation Capabilities and Future Needs for Molecular Environmental Science and Low-Temperature Geochemistry"
        },
        {
          "@type": "CreativeWork",
          "name": "Characterization of carbon- and nitrogen-rich particle fragments captured from comet 81P/Wild 2",
          "identifier": {
            "@type": "PropertyValue",
            "propertyID": "eid",
            "value": "2-s2.0-46749118089"
          }
        },
        {
          "@type": "CreativeWork",
          "name": "Characterization of carbon-and nitrogen-rich particle fragments captured from comet 81P/Wild 2"
        },
        {
          "@type": "CreativeWork",
          "name": "Chemical composition and heterogeneity of Wild 2 cometary particles determined by synchrotron X-ray fluorescence"
        },
        {
          "@type": "CreativeWork",
          "name": "Chemical composition and heterogeneity of Wild 2 cometary particles determined by synchrotron X-ray fluorescence",
          "identifier": {
            "@type": "PropertyValue",
            "propertyID": "eid",
            "value": "2-s2.0-46749154789"
          }
        },
        {
          "@type": "CreativeWork",
          "name": "Effect of saline waste solution infiltration rates on uranium retention and spatial distribution in Hanford sediments"
        },
        {
          "@type": "CreativeWork",
          "@id": "https://doi.org/10.1021/es070684b",
          "name": "Effect of saline waste solution infiltration rates on uranium retention and spatial distribution in Hanford sediments",
          "identifier": [
            {
              "@type": "PropertyValue",
              "propertyID": "doi",
              "value": "10.1021/es070684b"
            },
            {
              "@type": "PropertyValue",
              "propertyID": "eid",
              "value": "2-s2.0-41849117256"
            }
          ]
        },
        {
          "@type": "CreativeWork",
          "name": "Elemental compositions of large cluster IDPs"
        },
        {
          "@type": "CreativeWork",
          "name": "Evidence that the ZNT3 protein controls the total amount of elemental zinc in synaptic vesicles"
        },
        {
          "@type": "CreativeWork",
          "@id": "https://doi.org/10.1369/jhc.6a7035.2007",
          "name": "Evidence that the ZNT3 protein controls the total amount of elemental zinc in synaptic vesicles",
          "identifier": [
            {
              "@type": "PropertyValue",
              "propertyID": "doi",
              "value": "10.1369/jhc.6a7035.2007"
            },
            {
              "@type": "PropertyValue",
              "propertyID": "eid",
              "value": "2-s2.0-37249070874"
            }
          ]
        },
        {
          "@type": "CreativeWork",
          "name": "Hard X-ray microprobes using mirrors: Capabilities, applications and future developments"
        },
        {
          "@type": "CreativeWork",
          "name": "Real--time speciation of uranium during active bioremediation and U (IV) reoxidation"
        },
        {
          "@type": "CreativeWork",
          "name": "Real-time X-ray absorption spectroscopy of uranium, iron, and manganese in contaminated sediments during bioreduction"
        },
        {
          "@type": "CreativeWork",
          "@id": "https://doi.org/10.1021/es702364x",
          "name": "Real-time X-ray absorption spectroscopy of uranium, iron, and manganese in contaminated sediments during bioreduction",
          "identifier": [
            {
              "@type": "PropertyValue",
              "propertyID": "doi",
              "value": "10.1021/es702364x"
            },
            {
              "@type": "PropertyValue",
              "propertyID": "eid",
              "value": "2-s2.0-42149157728"
            }
          ]
        },
        {
          "@type": "CreativeWork",
          "@id": "https://doi.org/10.1061/(asce)0733-9372(2008)134:2(78)",
          "name": "Real-time speciation of uranium during active bioremediation and U(IV) reoxidation",
          "identifier": [
            {
              "@type": "PropertyValue",
              "propertyID": "doi",
              "value": "10.1061/(asce)0733-9372(2008)134:2(78)"
            },
            {
              "@type": "PropertyValue",
              "propertyID": "eid",
              "value": "2-s2.0-38349002630"
            }
          ]
        },
        {
          "@type": "CreativeWork",
          "name": "XRD Analyses of Small Grains Using Synchrotron Radiation: Potential Application to Samples Returned by Stardust"
        },
        {
          "@type": "CreativeWork",
          "name": "An Initial Assessment of the Needs of the NSLS-II Molecular Environmental Sciences/Low-Temperature Geochemistry User Community"
        },
        {
          "@type": "CreativeWork",
          "name": "Characterization of Three Carbon-and Nitrogen-Rich Particles from Comet 81P/WILD"
        },
        {
          "@type": "CreativeWork",
          "name": "Chemical compositions of five large cluster IDPs"
        },
        {
          "@type": "CreativeWork",
          "name": "High concentration of zinc in sub-retinal pigment epithelial deposits"
        },
        {
          "@type": "CreativeWork",
          "@id": "https://doi.org/10.1016/j.exer.2006.12.015",
          "name": "High concentration of zinc in sub-retinal pigment epithelial deposits",
          "identifier": [
            {
              "@type": "PropertyValue",
              "propertyID": "eid",
              "value": "2-s2.0-33947101484"
            },
            {
              "@type": "PropertyValue",
              "propertyID": "doi",
              "value": "10.1016/j.exer.2006.12.015"
            }
          ]
        },
        {
          "@type": "CreativeWork",
          "name": "Iron homeostasis in arabidopsis: Vacuoles and beyond"
        },
        {
          "@type": "CreativeWork",
          "name": "Long-term stability of organic carbon-stimulated chromate reduction in contaminated soils and its relation to manganese redox status"
        },
        {
          "@type": "CreativeWork",
          "@id": "https://doi.org/10.1021/es062874c",
          "name": "Long-term stability of organic carbon-stimulated chromate reduction in contaminated soils and its relation to manganese redox status",
          "identifier": [
            {
              "@type": "PropertyValue",
              "propertyID": "eid",
              "value": "2-s2.0-34250794476"
            },
            {
              "@type": "PropertyValue",
              "propertyID": "doi",
              "value": "10.1021/es062874c"
            }
          ]
        },
        {
          "@type": "CreativeWork",
          "name": "Mesoscale Biotransformation of Uranium: Influences of Organic Carbon Supply Rates and Sediment Oxides"
        },
        {
          "@type": "CreativeWork",
          "name": "Micro-XANES Determination Fe Speciation in Natural Basalts at Mantle-Relevant fO2"
        },
        {
          "@type": "CreativeWork",
          "@id": "https://doi.org/10.1029/2007eo510004",
          "name": "Synchrotron Radiation Needs for Molecular Environmental Science",
          "identifier": {
            "@type": "PropertyValue",
            "propertyID": "doi",
            "value": "10.1029/2007eo510004"
          }
        },
        {
          "@type": "CreativeWork",
          "name": "Synchrotron radiation needs for molecular environmental science",
          "identifier": {
            "@type": "PropertyValue",
            "propertyID": "eid",
            "value": "2-s2.0-38149008174"
          }
        },
        {
          "@type": "CreativeWork",
          "name": "Synchrotron radiation needs for molecular environmental science"
        },
        {
          "@type": "CreativeWork",
          "@id": "https://doi.org/10.1109/nebc.2007.4413276",
          "name": "Synchrotron-based imaging detects metal and plaques in a mouse model of Alzheimer's disease",
          "identifier": [
            {
              "@type": "PropertyValue",
              "propertyID": "doi",
              "value": "10.1109/nebc.2007.4413276"
            },
            {
              "@type": "PropertyValue",
              "propertyID": "eid",
              "value": "2-s2.0-48749106435"
            }
          ]
        },
        {
          "@type": "CreativeWork",
          "name": "Synchrotron-based imaging detects metal and plaques in a mouse model of Alzheimer\u2019s disease"
        },
        {
          "@type": "CreativeWork",
          "name": "Technical Report: Growth of Environmental Science at the NSLS"
        },
        {
          "@type": "CreativeWork",
          "name": "Trace element distributions and coral skeleton micromorphology following a bleaching event"
        },
        {
          "@type": "CreativeWork",
          "@id": "https://doi.org/10.1016/j.gca.2006.06.694",
          "name": "Synchrotron X-ray microbeam techniques in assessing metal bioavailability in the environment",
          "identifier": {
            "@type": "PropertyValue",
            "propertyID": "doi",
            "value": "10.1016/j.gca.2006.06.694"
          }
        },
        {
          "@type": "CreativeWork",
          "@id": "https://doi.org/10.1016/j.gca.2006.06.1591",
          "name": "Synchrotron \u03bc-XRF mapping of elemental distributions across coral skeleton micro-architecture",
          "identifier": {
            "@type": "PropertyValue",
            "propertyID": "doi",
            "value": "10.1016/j.gca.2006.06.1591"
          }
        },
        {
          "@type": "CreativeWork",
          "name": "Accessing user facilities and making your research experience successful"
        },
        {
          "@type": "CreativeWork",
          "@id": "https://doi.org/10.2113/gselements.2.1.31",
          "name": "Accessing user facilities and making your research experience successful",
          "identifier": [
            {
              "@type": "PropertyValue",
              "propertyID": "eid",
              "value": "2-s2.0-34248649875"
            },
            {
              "@type": "PropertyValue",
              "propertyID": "doi",
              "value": "10.2113/gselements.2.1.31"
            }
          ]
        },
        {
          "@type": "CreativeWork",
          "name": "Chemical analysis of Wild-2 samples returned by Stardust"
        },
        {
          "@type": "CreativeWork",
          "name": "Chemical compositions of large cluster IDPs"
        },
        {
          "@type": "CreativeWork",
          "name": "Comet 81P/Wild 2 under a microscope"
        },
        {
          "@type": "CreativeWork",
          "@id": "https://doi.org/10.1126/science.1135840",
          "name": "Comet 81P/wild 2 under a microscope",
          "identifier": [
            {
              "@type": "PropertyValue",
              "propertyID": "doi",
              "value": "10.1126/science.1135840"
            },
            {
              "@type": "PropertyValue",
              "propertyID": "eid",
              "value": "2-s2.0-33845685034"
            }
          ]
        },
        {
          "@type": "CreativeWork",
          "name": "Elemental compositions of comet 81P/Wild 2 samples collected by Stardust"
        },
        {
          "@type": "CreativeWork",
          "@id": "https://doi.org/10.1126/science.1136141",
          "name": "Elemental compositions of comet 81P/wild 2 samples collected by stardust",
          "identifier": [
            {
              "@type": "PropertyValue",
              "propertyID": "doi",
              "value": "10.1126/science.1136141"
            },
            {
              "@type": "PropertyValue",
              "propertyID": "eid",
              "value": "2-s2.0-33845700757"
            }
          ]
        },
        {
          "@type": "CreativeWork",
          "name": "LangenhorstF"
        },
        {
          "@type": "CreativeWork",
          "name": "Localization of iron in Arabidopsis seed requires the vacuolar membrane transporter VIT1"
        },
        {
          "@type": "CreativeWork",
          "@id": "https://doi.org/10.1126/science.1132563",
          "name": "Localization of iron in Arabidopsis seed requires the vacuolar membrane transporter VIT1",
          "identifier": [
            {
              "@type": "PropertyValue",
              "propertyID": "eid",
              "value": "2-s2.0-33751573050"
            },
            {
              "@type": "PropertyValue",
              "propertyID": "doi",
              "value": "10.1126/science.1132563"
            }
          ]
        },
        {
          "@type": "CreativeWork",
          "name": "MESOSCALE BIOTRANSFORMATIONS OF URANIUM IN SEDIMENTS AND SOILS (Program Element: Biogeochemistry)"
        },
        {
          "@type": "CreativeWork",
          "name": "Matthew D. Hall, Rebecca A. Alderden, Mei Zhang, Philip J. Beale, Zhonghou Cai, Barry Lai, Anton PJ Stampfl, Trevor W. Hambley. The fate of platinum (II) and platinum (IV) anti-cancer agents in cancer cells and tumours.......................................................................... 38 Guijian Liu, Weidong Huang, Robert D. Moir, Charles R. Vanderburg, Barry Lai, Zicheng Peng, Rudolph E. Tanzi, Jack T. Rogers, Xudong Huang. Metal exposure and Alzheimer\u00d5s"
        },
        {
          "@type": "CreativeWork",
          "name": "Medical Mineralogy and Geochemistry"
        },
        {
          "@type": "CreativeWork",
          "@id": "https://doi.org/10.2138/rmg.2006.64.3",
          "name": "Metal speciation and its role in bioaccessibility and bioavailability",
          "identifier": [
            {
              "@type": "PropertyValue",
              "propertyID": "doi",
              "value": "10.2138/rmg.2006.64.3"
            },
            {
              "@type": "PropertyValue",
              "propertyID": "eid",
              "value": "2-s2.0-33845975510"
            }
          ]
        },
        {
          "@type": "CreativeWork",
          "name": "Metal speciation and its role in bioaccessibility and bioavailability"
        },
        {
          "@type": "CreativeWork",
          "name": "Mineralogy and Petrology of Comet Wild2 Nucleus Samples-Final Results of the Preliminary Examination Team"
        },
        {
          "@type": "CreativeWork",
          "name": "Mineralogy and petrology of Comet Wild-2 nucleus samples-Final results of the preliminary examination team"
        },
        {
          "@type": "CreativeWork",
          "name": "Mineralogy and petrology of comet 81P/Wild 2 nucleus samples"
        },
        {
          "@type": "CreativeWork",
          "@id": "https://doi.org/10.1126/science.1135842",
          "name": "Mineralogy and petrology of comet 81P/wild 2 nucleus samples",
          "identifier": [
            {
              "@type": "PropertyValue",
              "propertyID": "doi",
              "value": "10.1126/science.1135842"
            },
            {
              "@type": "PropertyValue",
              "propertyID": "eid",
              "value": "2-s2.0-33845685808"
            }
          ]
        },
        {
          "@type": "CreativeWork",
          "name": "Quantitative determination of absolute organohalogen concentrations in environmental samples by X-ray absorption spectroscopy"
        },
        {
          "@type": "CreativeWork",
          "@id": "https://doi.org/10.1021/ac060476m",
          "name": "Quantitative determination of absolute organohalogen concentrations in environmental samples by X-ray absorption spectroscopy",
          "identifier": [
            {
              "@type": "PropertyValue",
              "propertyID": "doi",
              "value": "10.1021/ac060476m"
            },
            {
              "@type": "PropertyValue",
              "propertyID": "eid",
              "value": "2-s2.0-33747610658"
            }
          ]
        },
        {
          "@type": "CreativeWork",
          "name": "Spatial and temporal variability of arsenic solid-state speciation in historically lead arsenate contaminated soils"
        },
        {
          "@type": "CreativeWork",
          "@id": "https://doi.org/10.1021/es051266e",
          "name": "Spatial and temporal variability of arsenic solid-state speciation in historically lead arsenate contaminated soils",
          "identifier": [
            {
              "@type": "PropertyValue",
              "propertyID": "eid",
              "value": "2-s2.0-32344448800"
            },
            {
              "@type": "PropertyValue",
              "propertyID": "doi",
              "value": "10.1021/es051266e"
            }
          ]
        },
        {
          "@type": "CreativeWork",
          "name": "Stardust (comet) samples and the meteorite record"
        },
        {
          "@type": "CreativeWork",
          "name": "Synchrotron $\u03bc$-XRF mapping of elemental distributions across coral skeleton micro-architecture"
        },
        {
          "@type": "CreativeWork",
          "name": "Synchrotron X-ray microbeam techniques in assessing metal bioavailability in the environment"
        },
        {
          "@type": "CreativeWork",
          "name": "Synchrotron-based infrared and X-ray imaging shows focalized accumulation of Cu and Zn co-localized with $\u03b2$-amyloid deposits in Alzheimer\u2019s disease"
        },
        {
          "@type": "CreativeWork",
          "@id": "https://doi.org/10.1016/j.jsb.2005.09.004",
          "name": "Synchrotron-based infrared and X-ray imaging shows focalized accumulation of Cu and Zn co-localized with \u03b2-amyloid deposits in Alzheimer's disease",
          "identifier": [
            {
              "@type": "PropertyValue",
              "propertyID": "doi",
              "value": "10.1016/j.jsb.2005.09.004"
            },
            {
              "@type": "PropertyValue",
              "propertyID": "eid",
              "value": "2-s2.0-33745004381"
            }
          ]
        },
        {
          "@type": "CreativeWork",
          "name": "Tropical dendrochemistry: A novel approach to estimate age and growth from ringless trees"
        },
        {
          "@type": "CreativeWork",
          "@id": "https://doi.org/10.1029/2006gl026929",
          "name": "Tropical dendrochemistry: A novel approach to estimate age and growth from ringless trees",
          "identifier": [
            {
              "@type": "PropertyValue",
              "propertyID": "doi",
              "value": "10.1029/2006gl026929"
            },
            {
              "@type": "PropertyValue",
              "propertyID": "eid",
              "value": "2-s2.0-33845641251"
            }
          ]
        },
        {
          "@type": "CreativeWork",
          "@id": "https://doi.org/10.1016/j.nima.2006.02.179",
          "name": "X27A-A new hard X-ray micro-spectroscopy facility at the National Synchrotron Light Source",
          "identifier": [
            {
              "@type": "PropertyValue",
              "propertyID": "doi",
              "value": "10.1016/j.nima.2006.02.179"
            },
            {
              "@type": "PropertyValue",
              "propertyID": "eid",
              "value": "2-s2.0-33646778142"
            }
          ]
        },
        {
          "@type": "CreativeWork",
          "name": "X27A\u2014A new hard X-ray micro-spectroscopy facility at the National Synchrotron Light Source"
        },
        {
          "@type": "CreativeWork",
          "name": "Zinc coordination to multiple ligand atoms in organic-rich surface soils"
        },
        {
          "@type": "CreativeWork",
          "@id": "https://doi.org/10.1021/es0608343",
          "name": "Zinc coordination to multiple ligand atoms in organic-rich surface soils",
          "identifier": [
            {
              "@type": "PropertyValue",
              "propertyID": "doi",
              "value": "10.1021/es0608343"
            },
            {
              "@type": "PropertyValue",
              "propertyID": "eid",
              "value": "2-s2.0-33748793122"
            }
          ]
        },
        {
          "@type": "CreativeWork",
          "name": "241Am, 137Cs, Sr and Pb uptake by tobacco as influenced by application of Fe chelators to soil"
        },
        {
          "@type": "CreativeWork",
          "@id": "https://doi.org/10.1016/j.jenvrad.2004.11.006",
          "name": "<sup>241</sup>Am,<sup>137</sup>Cs, Sr and Pb uptake by tobacco as influenced by application of Fe chelators to soil",
          "identifier": [
            {
              "@type": "PropertyValue",
              "propertyID": "doi",
              "value": "10.1016/j.jenvrad.2004.11.006"
            },
            {
              "@type": "PropertyValue",
              "propertyID": "eid",
              "value": "2-s2.0-17044407046"
            }
          ]
        },
        {
          "@type": "CreativeWork",
          "name": "Application of synchrotron X-ray microbeam spectroscopy to the determination of metal distribution and speciation in biological tissues"
        },
        {
          "@type": "CreativeWork",
          "@id": "https://doi.org/10.1081/sl-200058715",
          "name": "Application of synchrotron X-ray microbeam spectroscopy to the determination of metal distribution and speciation in biological tissues",
          "identifier": [
            {
              "@type": "PropertyValue",
              "propertyID": "doi",
              "value": "10.1081/sl-200058715"
            },
            {
              "@type": "PropertyValue",
              "propertyID": "eid",
              "value": "2-s2.0-20444457619"
            }
          ]
        },
        {
          "@type": "CreativeWork",
          "name": "Chemical and Mineralogical Analyses of Particles from the Stratospheric Collectons Coinciding with the 2002 Leonid Storm and the 2003 Comet Grigg-Skjellerup Trail Passage"
        },
        {
          "@type": "CreativeWork",
          "name": "Determining arsenic speciation in iron oxides derived from a gold-roasting operation: application of synchrotron micro-XRD and micro-XANES at the grain scale"
        },
        {
          "@type": "CreativeWork",
          "name": "Development and applications of an epifluorescence module for synchrotron x-ray fluorescence microprobe imaging"
        },
        {
          "@type": "CreativeWork",
          "@id": "https://doi.org/10.1063/1.1928454",
          "name": "Development and applications of an epifluorescence module for synchrotron x-ray fluorescence microprobe imaging",
          "identifier": [
            {
              "@type": "PropertyValue",
              "propertyID": "eid",
              "value": "2-s2.0-20644462978"
            },
            {
              "@type": "PropertyValue",
              "propertyID": "doi",
              "value": "10.1063/1.1928454"
            }
          ]
        },
        {
          "@type": "CreativeWork",
          "name": "Distribution and speciation of metals in annual rings of black willow"
        },
        {
          "@type": "CreativeWork",
          "@id": "https://doi.org/10.2134/jeq2004.0461",
          "name": "Distribution and speciation of metals in annual rings of black willow",
          "identifier": [
            {
              "@type": "PropertyValue",
              "propertyID": "eid",
              "value": "2-s2.0-22944451799"
            },
            {
              "@type": "PropertyValue",
              "propertyID": "doi",
              "value": "10.2134/jeq2004.0461"
            }
          ]
        },
        {
          "@type": "CreativeWork",
          "name": "Emissions and encapsulation of cadmium in CdTe PV modules during fires"
        },
        {
          "@type": "CreativeWork",
          "@id": "https://doi.org/10.1002/pip.624",
          "name": "Emissions and encapsulation of cadmium in CdTe PV modules during fires",
          "identifier": [
            {
              "@type": "PropertyValue",
              "propertyID": "doi",
              "value": "10.1002/pip.624"
            },
            {
              "@type": "PropertyValue",
              "propertyID": "eid",
              "value": "2-s2.0-29044435310"
            }
          ]
        },
        {
          "@type": "CreativeWork",
          "name": "Enhanced zinc consumption causes memory deficits and increased brain levels of zinc"
        },
        {
          "@type": "CreativeWork",
          "@id": "https://doi.org/10.1016/j.physbeh.2004.10.009",
          "name": "Enhanced zinc consumption causes memory deficits and increased brain levels of zinc",
          "identifier": [
            {
              "@type": "PropertyValue",
              "propertyID": "eid",
              "value": "2-s2.0-11844298397"
            },
            {
              "@type": "PropertyValue",
              "propertyID": "doi",
              "value": "10.1016/j.physbeh.2004.10.009"
            }
          ]
        },
        {
          "@type": "CreativeWork",
          "name": "Environmental Sciences Department, Brookhaven National Laboratory, Building 830, PO Box 5000, Upton, NY 11973, USA"
        },
        {
          "@type": "CreativeWork",
          "name": "Evidence for biogenic pyromorphite formation by the nematode Caenorhabditis elegans"
        },
        {
          "@type": "CreativeWork",
          "@id": "https://doi.org/10.1021/es050154k",
          "name": "Evidence for biogenic pyromorphite formation by the nematode Caenorhabditis elegans",
          "identifier": [
            {
              "@type": "PropertyValue",
              "propertyID": "eid",
              "value": "2-s2.0-23244436739"
            },
            {
              "@type": "PropertyValue",
              "propertyID": "doi",
              "value": "10.1021/es050154k"
            }
          ]
        },
        {
          "@type": "CreativeWork",
          "name": "Geometric constraints of in situ synchrotron micro-XANES determinations of oxidation state"
        },
        {
          "@type": "CreativeWork",
          "name": "MAPPING METAL CATALYSTS USING SYNCHROTRON COMPUTED MICROTOMOGRAPHY (CMT) AND MICRO-X-RAY FLUORESCENCE (MICRO XRF)"
        },
        {
          "@type": "CreativeWork",
          "@id": "https://doi.org/10.1007/s11244-005-2908-3",
          "name": "Mapping metal catalysts using synchrotron computed microtomography (CMT) and micro-X-ray fluorescence (\u03bcXRF)",
          "identifier": [
            {
              "@type": "PropertyValue",
              "propertyID": "doi",
              "value": "10.1007/s11244-005-2908-3"
            },
            {
              "@type": "PropertyValue",
              "propertyID": "eid",
              "value": "2-s2.0-18344371866"
            }
          ]
        },
        {
          "@type": "CreativeWork",
          "name": "Meeting Reports: SES-III Meeting"
        },
        {
          "@type": "CreativeWork",
          "name": "Oxidizing Begavior of Soil Manganese"
        },
        {
          "@type": "CreativeWork",
          "name": "Oxidizing behavior of soil manganese: Interactions among abundance, oxidation state, and pH",
          "identifier": {
            "@type": "PropertyValue",
            "propertyID": "eid",
            "value": "2-s2.0-12944284463"
          }
        },
        {
          "@type": "CreativeWork",
          "name": "Oxidizing behavior of soil manganese: interactions among abundance, oxidation state, and pH"
        },
        {
          "@type": "CreativeWork",
          "@id": "https://doi.org/10.2136/sssaj2005.0353",
          "name": "Soil Manganese Oxides and Trace Metals",
          "identifier": {
            "@type": "PropertyValue",
            "propertyID": "doi",
            "value": "10.2136/sssaj2005.0353"
          }
        },
        {
          "@type": "CreativeWork",
          "name": "Soil manganese oxides and trace metals: Competitive sorption and microfocused synchrotron X-ray fluorescence mapping",
          "identifier": {
            "@type": "PropertyValue",
            "propertyID": "eid",
            "value": "2-s2.0-15744380225"
          }
        },
        {
          "@type": "CreativeWork",
          "name": "Soil manganese oxides and trace metals: Competitive sorption and microfocused synchrotron x-ray fluorescence mapping"
        },
        {
          "@type": "CreativeWork",
          "name": "Spatial distribution and speciation of lead around corroding bullets in a shooting range soil studied by micro-X-ray fluorescence and absorption spectroscopy"
        },
        {
          "@type": "CreativeWork",
          "name": "Spatial distribution and speciation of lead around corroding bullets in a shooting range soil studied by micro-X-ray fluorescence and absorption spectroscopy"
        },
        {
          "@type": "CreativeWork",
          "@id": "https://doi.org/10.1021/es0482740",
          "name": "Spatial distribution and speciation of lead around corroding bullets in a shooting range soil studied by micro-X-ray fluorescence and absorption spectroscopy",
          "identifier": [
            {
              "@type": "PropertyValue",
              "propertyID": "doi",
              "value": "10.1021/es0482740"
            },
            {
              "@type": "PropertyValue",
              "propertyID": "eid",
              "value": "2-s2.0-22144496846"
            }
          ]
        },
        {
          "@type": "CreativeWork",
          "name": "Speciation and surface complexation of as on hydrous ferric oxide in soils modified by in situ chemical fixation"
        },
        {
          "@type": "CreativeWork",
          "name": "Synchrotron X-ray microprobe and computed microtomography for characterization of nanocatalysts"
        },
        {
          "@type": "CreativeWork",
          "@id": "https://doi.org/10.1016/j.nimb.2005.07.177",
          "name": "Synchrotron X-ray microprobe and computed microtomography for characterization of nanocatalysts",
          "identifier": [
            {
              "@type": "PropertyValue",
              "propertyID": "eid",
              "value": "2-s2.0-28044460270"
            },
            {
              "@type": "PropertyValue",
              "propertyID": "doi",
              "value": "10.1016/j.nimb.2005.07.177"
            }
          ]
        },
        {
          "@type": "CreativeWork",
          "name": "The speciation of arsenic in iron oxides in mine wastes from the Giant gold mine, NWT: Application of synchrotron micro-XRD and micro-XANES at the grain scale"
        },
        {
          "@type": "CreativeWork",
          "@id": "https://doi.org/10.2113/gscanmin.43.4.1205",
          "name": "The speciation of arsenic in iron oxides in mine wastes from the giant gold mine, N.W.T.: Application of synchrotron micro-XRD and micro-xanes at the grain scale",
          "identifier": [
            {
              "@type": "PropertyValue",
              "propertyID": "doi",
              "value": "10.2113/gscanmin.43.4.1205"
            },
            {
              "@type": "PropertyValue",
              "propertyID": "eid",
              "value": "2-s2.0-28844497525"
            }
          ]
        },
        {
          "@type": "CreativeWork",
          "name": "Transformation of arsenic species in solids and porewaters from Yellowknife Bay, NWT, Canada"
        },
        {
          "@type": "CreativeWork",
          "name": "Transmission and fluorescence mode microXAS analysis of oriented mineral grains"
        },
        {
          "@type": "CreativeWork",
          "name": "Uranium reduction in sediments under diffusion-limited transport of organic carbon"
        },
        {
          "@type": "CreativeWork",
          "@id": "https://doi.org/10.1021/es050221a",
          "name": "Uranium reduction in sediments under diffusion-limited transport of organic carbon",
          "identifier": [
            {
              "@type": "PropertyValue",
              "propertyID": "eid",
              "value": "2-s2.0-25144504892"
            },
            {
              "@type": "PropertyValue",
              "propertyID": "doi",
              "value": "10.1021/es050221a"
            }
          ]
        },
        {
          "@type": "CreativeWork",
          "name": "X-ray fluorescence microprobes using microfocusing mirrors"
        },
        {
          "@type": "CreativeWork",
          "name": "A Synchrotron-based Facility for Location and In-situ Chemical and Mineralogical Analysis of\u0303 10 mm Particles From Comets and Asteroids Returned to Earth in Aerogel"
        },
        {
          "@type": "CreativeWork",
          "@id": "https://doi.org/10.1016/s0012-821x(04)00004-4",
          "name": "Ancient water on asteroid 4 Vesta: Evidence from a quartz veinlet in the Serra de Mag\u00e9 eucrite meteorite",
          "identifier": [
            {
              "@type": "PropertyValue",
              "propertyID": "eid",
              "value": "2-s2.0-1542435054"
            },
            {
              "@type": "PropertyValue",
              "propertyID": "doi",
              "value": "10.1016/s0012-821x(04)00004-4"
            }
          ]
        },
        {
          "@type": "CreativeWork",
          "name": "Ancient water on asteroid 4 Vesta: evidence from a quartz veinlet in the Serra de Mag\u00e9 eucrite meteorite"
        },
        {
          "@type": "CreativeWork",
          "name": "Characterization of petroleum deposits formed in a producing well by synchrotron radiation-based microanalyses"
        },
        {
          "@type": "CreativeWork",
          "@id": "https://doi.org/10.1021/ef030108a",
          "name": "Characterization of petroleum deposits formed in a producing well by synchrotron radiation-based microanalyses",
          "identifier": [
            {
              "@type": "PropertyValue",
              "propertyID": "eid",
              "value": "2-s2.0-4043128208"
            },
            {
              "@type": "PropertyValue",
              "propertyID": "doi",
              "value": "10.1021/ef030108a"
            }
          ]
        },
        {
          "@type": "CreativeWork",
          "name": "Microanalysis of NY/NJ Harbor sediments using synchrotron X-ray beams",
          "identifier": {
            "@type": "PropertyValue",
            "propertyID": "eid",
            "value": "2-s2.0-23844499120"
          }
        },
        {
          "@type": "CreativeWork",
          "name": "Mirror-based X-ray fluorescence microprobes at the Advanced Photon Source and the National Synchrotron Light Source"
        },
        {
          "@type": "CreativeWork",
          "name": "Petrographic and trace element analysis of uranium-rich tufa calcite, middle Miocene Barstow Formation, California, USA"
        },
        {
          "@type": "CreativeWork",
          "@id": "https://doi.org/10.1111/j.1365-3091.2004.00631.x",
          "name": "Petrographic and trace element analysis of uranium-rich tufa calcite, middle Miocene Barstow Formation, California, USA",
          "identifier": [
            {
              "@type": "PropertyValue",
              "propertyID": "doi",
              "value": "10.1111/j.1365-3091.2004.00631.x"
            },
            {
              "@type": "PropertyValue",
              "propertyID": "eid",
              "value": "2-s2.0-2942579076"
            }
          ]
        },
        {
          "@type": "CreativeWork",
          "name": "Synchrotron X-ray diffraction analysis of meteorites in thin section: preliminary results"
        },
        {
          "@type": "CreativeWork",
          "name": "Uranium and other trace element incorporation into tufa calcite"
        },
        {
          "@type": "CreativeWork",
          "name": "A Synchrotron-based Facility for the In-Situ Chemical and Mineralogical Analysis of\u0303 10 $\u03bc$m Particles in Aerogel"
        },
        {
          "@type": "CreativeWork",
          "name": "ACTINIDE ENRICHMENT IN PHOSPHATE BONE FOSSILS OF THE GREEN RIVER FORMATION"
        },
        {
          "@type": "CreativeWork",
          "name": "Arsenic speciation and reactivity in poultry litter"
        },
        {
          "@type": "CreativeWork",
          "@id": "https://doi.org/10.1021/es0340580",
          "name": "Arsenic speciation and reactivity in poultry litter",
          "identifier": [
            {
              "@type": "PropertyValue",
              "propertyID": "doi",
              "value": "10.1021/es0340580"
            },
            {
              "@type": "PropertyValue",
              "propertyID": "eid",
              "value": "2-s2.0-0042691370"
            }
          ]
        },
        {
          "@type": "CreativeWork",
          "name": "Arsenic speciation and reactivity in poultry litter Environ Sci Tech 15: 4083--4090"
        },
        {
          "@type": "CreativeWork",
          "name": "Chemical and mineralogical analysis of an extraterrestrial particle in aerogel"
        },
        {
          "@type": "CreativeWork",
          "@id": "https://doi.org/10.2134/jeq2003.0541",
          "name": "Distribution of Chromium Contamination and Microbial Activity in Soil Aggregates",
          "identifier": {
            "@type": "PropertyValue",
            "propertyID": "doi",
            "value": "10.2134/jeq2003.0541"
          }
        },
        {
          "@type": "CreativeWork",
          "@id": "https://doi.org/10.2134/jeq2003.5410",
          "name": "Distribution of Chromium Contamination and Microbial Activity in Soil Aggregates",
          "identifier": {
            "@type": "PropertyValue",
            "propertyID": "doi",
            "value": "10.2134/jeq2003.5410"
          }
        },
        {
          "@type": "CreativeWork",
          "name": "Distribution of chromium contamination and microbial activity in soil aggregates"
        },
        {
          "@type": "CreativeWork",
          "name": "Distribution of chromium contamination and microbial activity in soil aggregates",
          "identifier": {
            "@type": "PropertyValue",
            "propertyID": "eid",
            "value": "2-s2.0-0037344217"
          }
        },
        {
          "@type": "CreativeWork",
          "name": "F47 Performance and Application of Mirror-Based X-ray Fluorescence Microprobes at the Advanced Photon Source and the National Synchrotron Light Source"
        },
        {
          "@type": "CreativeWork",
          "name": "Geochemical signature of contaminated sediment remobilization revealed by spatially resolved X-ray microanalysis of annual rings of Salix nigra"
        },
        {
          "@type": "CreativeWork",
          "@id": "https://doi.org/10.1021/es0261628",
          "name": "Geochemical signature of contaminated sediment remobilization revealed by spatially resolved X-ray microanalysis of annual rings of Salix nigra",
          "identifier": [
            {
              "@type": "PropertyValue",
              "propertyID": "doi",
              "value": "10.1021/es0261628"
            },
            {
              "@type": "PropertyValue",
              "propertyID": "eid",
              "value": "2-s2.0-0038417055"
            }
          ]
        },
        {
          "@type": "CreativeWork",
          "@id": "https://doi.org/10.2134/jeq2003.1641",
          "name": "In Situ Reduction of Chromium(VI) in Heavily Contaminated Soils through Organic Carbon Amendment",
          "identifier": {
            "@type": "PropertyValue",
            "propertyID": "doi",
            "value": "10.2134/jeq2003.1641"
          }
        },
        {
          "@type": "CreativeWork",
          "name": "In situ reduction of chromium (VI) in heavily contaminated soils through organic carbon amendment"
        },
        {
          "@type": "CreativeWork",
          "name": "In situ reduction of chromium (VI) in heavily contaminated soils through organic carbon amendment"
        },
        {
          "@type": "CreativeWork",
          "name": "In situ reduction of chromium(VI) in heavily contaminated soils through organic carbon amendment",
          "identifier": {
            "@type": "PropertyValue",
            "propertyID": "eid",
            "value": "2-s2.0-0141768145"
          }
        },
        {
          "@type": "CreativeWork",
          "name": "Microanalysis of Ny/nj Harbor Sediments Using Synchrotron X-ray Beams"
        },
        {
          "@type": "CreativeWork",
          "name": "Microscale environmental science studies using high energy synchrotron radiation"
        },
        {
          "@type": "CreativeWork",
          "name": "Phosphor imaging as a tool for in situ mapping of ppm levels of uranium and thorium in rocks and minerals"
        },
        {
          "@type": "CreativeWork",
          "name": "T wIDE RANGE o CHRoMUM applications has re"
        },
        {
          "@type": "CreativeWork",
          "name": "The Application of Synchrotron X-ray Fluorescence to Dendroanalysis: Nickel in Salix nigra L."
        },
        {
          "@type": "CreativeWork",
          "name": "X-ray microtomography study of metal distribution in sediments related to pore structure modification by mineral dissolution and neophase formation under extremely alkaline conditions"
        },
        {
          "@type": "CreativeWork",
          "@id": "https://doi.org/10.1080/08940880208602985",
          "name": "Imaging and microspectroscopy at the national synchrotron light source",
          "identifier": {
            "@type": "PropertyValue",
            "propertyID": "doi",
            "value": "10.1080/08940880208602985"
          }
        },
        {
          "@type": "CreativeWork",
          "name": "A Synchrotron Based Facility for the In-situ Location, Chemical and Mineralogical Characterization of\u0303 10 micron Particles Captured in Aerogel"
        },
        {
          "@type": "CreativeWork",
          "name": "Analytical protocol for determining Cl, Br, and Cl/Br in natural and synthetic fluid inclusions of low salinity"
        },
        {
          "@type": "CreativeWork",
          "name": "Chromium redox transformations in diffusion-limited domains of soils: Linking micro-and macro-scale processes"
        },
        {
          "@type": "CreativeWork",
          "name": "Crystallization conditions of Los Angeles, a basaltic Martian meteorite"
        },
        {
          "@type": "CreativeWork",
          "@id": "https://doi.org/10.1016/s0016-7037(01)00892-4",
          "name": "Crystallization conditions of Los Angeles, a basaltic Martian meteorite",
          "identifier": [
            {
              "@type": "PropertyValue",
              "propertyID": "eid",
              "value": "2-s2.0-0036259941"
            },
            {
              "@type": "PropertyValue",
              "propertyID": "doi",
              "value": "10.1016/s0016-7037(01)00892-4"
            }
          ]
        },
        {
          "@type": "CreativeWork",
          "name": "Hard X-ray microprobe"
        },
        {
          "@type": "CreativeWork",
          "name": "Human health risks from methyl mercury in fish YYYY No org found YYY"
        },
        {
          "@type": "CreativeWork",
          "name": "Imaging and microspectroscopy at the national synchrotron light source"
        },
        {
          "@type": "CreativeWork",
          "name": "Journal of Vascular and Interventional Radiology"
        },
        {
          "@type": "CreativeWork",
          "name": "Micro-scale Pb distribution and oxidation in a shooting range soil"
        },
        {
          "@type": "CreativeWork",
          "name": "Microfluorescence and microtomography analyses of heterogeneous earth and environmental materials",
          "identifier": {
            "@type": "PropertyValue",
            "propertyID": "eid",
            "value": "2-s2.0-33845757571"
          }
        },
        {
          "@type": "CreativeWork",
          "name": "Microfluorescence and microtomography analyses of heterogeneous earth and environmental materials"
        },
        {
          "@type": "CreativeWork",
          "@id": "https://doi.org/10.1016/s0009-2541(02)00223-1",
          "name": "Phosphor imaging as a tool for in situ mapping of ppm levels of uranium and thorium in rocks and minerals",
          "identifier": [
            {
              "@type": "PropertyValue",
              "propertyID": "eid",
              "value": "2-s2.0-0037082277"
            },
            {
              "@type": "PropertyValue",
              "propertyID": "doi",
              "value": "10.1016/s0009-2541(02)00223-1"
            }
          ]
        },
        {
          "@type": "CreativeWork",
          "name": "Use of Synchrotron X-ray Fluorescence to Measure Trace Metal Distribution in the Brain"
        },
        {
          "@type": "CreativeWork",
          "name": "Use of the spindle stage for orientation of single crystals for microXAS: Isotropy and anisotropy in Fe-XANES spectra"
        },
        {
          "@type": "CreativeWork",
          "@id": "https://doi.org/10.2138/am-2002-1029",
          "name": "Use of the spindle stage for orientation of single crystals for microXAS: Isotropy and anisotropy in Fe-XANES spectra",
          "identifier": [
            {
              "@type": "PropertyValue",
              "propertyID": "doi",
              "value": "10.2138/am-2002-1029"
            },
            {
              "@type": "PropertyValue",
              "propertyID": "eid",
              "value": "2-s2.0-0036811391"
            }
          ]
        },
        {
          "@type": "CreativeWork",
          "name": "XRF and XANES studies of uranium incorporation into Miocene tufa calcite"
        },
        {
          "@type": "CreativeWork",
          "name": "Comparison of pyrrhotite from interplanetary dust and meteorites: Evidence for different formation environments"
        },
        {
          "@type": "CreativeWork",
          "name": "Coprecipitation of uranium (VI) with calcite: XAFS, micro-XAS, and luminescence characterization"
        },
        {
          "@type": "CreativeWork",
          "@id": "https://doi.org/10.1016/s0016-7037(01)00647-0",
          "name": "Coprecipitation of uranium(VI) with calcite: XAFS, micro-XAS, and luminescence characterization",
          "identifier": [
            {
              "@type": "PropertyValue",
              "propertyID": "eid",
              "value": "2-s2.0-0035209798"
            },
            {
              "@type": "PropertyValue",
              "propertyID": "doi",
              "value": "10.1016/s0016-7037(01)00647-0"
            }
          ]
        },
        {
          "@type": "CreativeWork",
          "name": "Coupled U-Pb isotopic studies and synchrotron x-ray microbeam analysis of geologic systems"
        },
        {
          "@type": "CreativeWork",
          "name": "Diffusion-Limited Reduction of Chromium in Soil Aggregates"
        },
        {
          "@type": "CreativeWork",
          "name": "Diffusion-limited chromium reduction in soil aggregates"
        },
        {
          "@type": "CreativeWork",
          "name": "Intra-aggregate Biogeochemical Dynamics of Chromium Contamination and In-situ Remediation"
        },
        {
          "@type": "CreativeWork",
          "name": "NSLS 2001 annual users' meeting workshops: Environmental-molecular sciences workshop"
        },
        {
          "@type": "CreativeWork",
          "name": "Sensitivity of soil manganese oxides: Drying and storage cause reduction"
        },
        {
          "@type": "CreativeWork",
          "name": "Sensitivity of soil manganese oxides: Drying and storage cause reduction"
        },
        {
          "@type": "CreativeWork",
          "name": "Sensitivity of soil manganese oxides: Drying and storage cause reduction",
          "identifier": {
            "@type": "PropertyValue",
            "propertyID": "eid",
            "value": "2-s2.0-0034975463"
          }
        },
        {
          "@type": "CreativeWork",
          "name": "Sensitivity of soil manganese oxides: XANES spectroscopy may cause reduction",
          "identifier": {
            "@type": "PropertyValue",
            "propertyID": "eid",
            "value": "2-s2.0-0034969061"
          }
        },
        {
          "@type": "CreativeWork",
          "name": "Synchrotron X-Ray Fluorescence Microprobe Determination of Halides in Natural and Synthetic Aqueous-Fluid Inclusions: Analytical Protocol for Low-Salinity Inclusions"
        },
        {
          "@type": "CreativeWork",
          "name": "The Use of WDS in Synchrotron X-Ray Fluorescence and Spectroscopy: Case Studies Involving Heterogeneous Reactivity at the Mineral-Water Interface"
        },
        {
          "@type": "CreativeWork",
          "name": "Trace Element Incorporation in Caliche Paleosols"
        },
        {
          "@type": "CreativeWork",
          "name": "Uranium (VI) incorporation in paleosol calcite: evidence for sequestration of U on geologic time scales"
        },
        {
          "@type": "CreativeWork",
          "name": "Uranium-Lead Ages of Lake Margin Tufa Calcite From the Middle Miocene Barstow Formation, Southern California"
        },
        {
          "@type": "CreativeWork",
          "name": "A comparison of the selenium contents of sulfides from interplanetary dust particles and meteorites"
        },
        {
          "@type": "CreativeWork",
          "name": "Combined X-ray diffraction mineralogical classification and X-ray fluorescence chemical analysis of individual interplanetary dust particles"
        },
        {
          "@type": "CreativeWork",
          "@id": "https://doi.org/10.1130/0-8137-2331-0.179",
          "name": "Constraints on timing and displacement of multistage shearing in the Norumbega fault system, eastern Maine",
          "identifier": [
            {
              "@type": "PropertyValue",
              "propertyID": "doi",
              "value": "10.1130/0-8137-2331-0.179"
            },
            {
              "@type": "PropertyValue",
              "propertyID": "eid",
              "value": "2-s2.0-84870904989"
            }
          ]
        },
        {
          "@type": "CreativeWork",
          "name": "Constraints on timing and displacement of multistage shearing in the Norumbega fault system, eastern Maine"
        },
        {
          "@type": "CreativeWork",
          "name": "New Mexico middle-crustal cross sections: 1.65-Ga macroscopic geometry, 1.4-Ga thermal structure, and continued problems in understanding crustal evolution"
        },
        {
          "@type": "CreativeWork",
          "name": "Trace-element chemical analyses with synchrotron-based X-ray microprobes"
        },
        {
          "@type": "CreativeWork",
          "name": "An assessment of the utility of staurolite in U-Pb dating of metamorphism"
        },
        {
          "@type": "CreativeWork",
          "@id": "https://doi.org/10.1007/s004100050342",
          "name": "An assessment of the utility of staurolite in U-Pb dating of metamorphism",
          "identifier": [
            {
              "@type": "PropertyValue",
              "propertyID": "doi",
              "value": "10.1007/s004100050342"
            },
            {
              "@type": "PropertyValue",
              "propertyID": "eid",
              "value": "2-s2.0-0031372727"
            }
          ]
        },
        {
          "@type": "CreativeWork",
          "@id": "https://doi.org/10.1007/s004100050226",
          "name": "Geochronology and geochemistry of multiple generations of monazite from the Wepawaug Schist, Connecticut, USA: implications for monazite stability in metamorphic rocks",
          "identifier": {
            "@type": "PropertyValue",
            "propertyID": "doi",
            "value": "10.1007/s004100050226"
          }
        },
        {
          "@type": "CreativeWork",
          "name": "A doublylooping P--T--t--D history for Proterozoic rocks of northern New Mexico and implications for the tectonothermal behavior of the mid-crust"
        },
        {
          "@type": "CreativeWork",
          "name": "A more vigorous approach to dating mid-crustal processes: U-Pb dating of varied major and accessory metamorphic minerals tied to microstructural studies"
        },
        {
          "@type": "CreativeWork",
          "name": "Geochronology and geochemistry of multiple generations of monazite from the Wepawaug Schist, Connecticut, USA: Implications for monazite stability in metamorphic rocks",
          "identifier": {
            "@type": "PropertyValue",
            "propertyID": "eid",
            "value": "2-s2.0-0030376132"
          }
        },
        {
          "@type": "CreativeWork",
          "name": "Geochronology and geochemistry of multiple generations of monazite from the Wepawaug Schist, Connecticut, USA: implications for monazite stability in metamorphic rocks"
        },
        {
          "@type": "CreativeWork",
          "name": "Timing constraints on porphyroblast growth and fabric development in the southern Picuris Range, north central New Mexico; implications for the protracted tectonic/thermal evolution of the middle crust"
        },
        {
          "@type": "CreativeWork",
          "name": "The Orange-Milford Belt of Southwestern Connecticut: Identifying unique crustal packages in New England using combined geochemistry, geochronology, and petrology"
        },
        {
          "@type": "CreativeWork",
          "name": "U-Pb dating of major and accessory minerals formed during metamorphism and deformation of metapelites"
        },
        {
          "@type": "CreativeWork",
          "@id": "https://doi.org/10.1016/0016-7037(95)00146-8",
          "name": "U-Pb dating of major and accessory minerals formed during metamorphism and deformation of metapelites",
          "identifier": [
            {
              "@type": "PropertyValue",
              "propertyID": "doi",
              "value": "10.1016/0016-7037(95)00146-8"
            },
            {
              "@type": "PropertyValue",
              "propertyID": "eid",
              "value": "2-s2.0-0028864922"
            }
          ]
        },
        {
          "@type": "CreativeWork",
          "name": "U-Pb dating of metapelites"
        },
        {
          "@type": "CreativeWork",
          "name": "Yttrium zoning in metamorphic garnets"
        },
        {
          "@type": "CreativeWork",
          "@id": "https://doi.org/10.1016/0016-7037(95)00320-y",
          "name": "Yttrium zoning in metamorphic garnets",
          "identifier": [
            {
              "@type": "PropertyValue",
              "propertyID": "eid",
              "value": "2-s2.0-0029501021"
            },
            {
              "@type": "PropertyValue",
              "propertyID": "doi",
              "value": "10.1016/0016-7037(95)00320-y"
            }
          ]
        },
        {
          "@type": "CreativeWork",
          "name": "Isotopic evidence for Cambrian tectonism in the crystalline southern Appalachians: The Carolinian, not the Taconian"
        },
        {
          "@type": "CreativeWork",
          "name": "Leucogranites and the prolonged, episodic nature of Acadian orogenesis, southwestern Connecticut"
        },
        {
          "@type": "CreativeWork",
          "name": "Metamorphic and structural evolution of the Straits Schist, W. Connecticut: U-PB monazite constraints"
        },
        {
          "@type": "CreativeWork",
          "name": "REE geochemistry of the Maltby Lakes Metavolcanics and Allingtown metadiabase, southwest Connecticut"
        },
        {
          "@type": "CreativeWork",
          "name": "U-Pb dating of staurolite"
        },
        {
          "@type": "CreativeWork",
          "name": "Multiple generations of monazite growth in metapelites of the Wepawaug Schist, southern Connecticut"
        },
        {
          "@type": "CreativeWork",
          "name": "Geology and geochemistry of a Proterozoic supracrustal and intrusive sequence in the Central Wet Mountains"
        },
        {
          "@type": "CreativeWork",
          "name": "Geology and geochemistry of a Proterozoic supracrustal and intrusive sequence in the central Wet Mountains, Colorado"
        },
        {
          "@type": "CreativeWork",
          "name": "Origin and tectonic significance of early Proterozoic leucogranites and high-pressure granulites in the Wet Mountains, Colorado"
        },
        {
          "@type": "CreativeWork",
          "name": "A., SR Sutton, M. Newville, J. Dyer, and DL Sparks. 2006. Spatial and temporal variability of arsenic solid-state speciation in historically lead arsenate contaminated soils"
        },
        {
          "@type": "CreativeWork",
          "name": "Chromate Diffusion and Reduction in Soil Aggregates: Dynamics of Contamination and In-situ Reduction"
        },
        {
          "@type": "CreativeWork",
          "name": "Describing the Arabidopsis ionome using Synchrotron X-Ray Fluorescence Microtomography."
        },
        {
          "@type": "CreativeWork",
          "name": "Fe-AND Cr-XANES ANALYSES OF LARGE CLUSTER INTERPLANETARY DUST PARTICLES. GJ"
        },
        {
          "@type": "CreativeWork",
          "name": "In Situ Reduction of Cr (VI) in Contaminated Soils through Organic Carbon Amendment"
        },
        {
          "@type": "CreativeWork",
          "name": "In-situ Remediation of Cr (VI) in Contaminated Soils Through Organic Carbon Amendment"
        },
        {
          "@type": "CreativeWork",
          "name": "Incorporation of U and Th in Phosphatized Fossils"
        },
        {
          "@type": "CreativeWork",
          "name": "Incorporation of Uranium and Other Trace Elements in Lacustrine Tufa Calcite"
        },
        {
          "@type": "CreativeWork",
          "name": "Microscale Speciation of As in Poultry Litter"
        },
        {
          "@type": "CreativeWork",
          "name": "Scientific Data Exchange: a schema for HDF5-based storage of raw and analyzed data"
        },
        {
          "@type": "CreativeWork",
          "name": "Supplementary Information for Natural Organobromine in Marine Sediments: New Evidence of Biogeochemical Br Cycling"
        },
        {
          "@type": "CreativeWork",
          "name": "Supporting Information Effect of Saline Waste Solution Infiltration Rates on Uranium Retention and Spatial Distribution in Hanford Sediments"
        },
        {
          "@type": "CreativeWork",
          "name": "Supporting Information for"
        },
        {
          "@type": "CreativeWork",
          "name": "The Mineralogy and Geochemistry of Los Angeles, a Martian Basaltic Meteorite"
        },
        {
          "@type": "CreativeWork",
          "name": "The absorption of common metals in leaf of the common dandelion as a measure of metals in soil"
        },
        {
          "@type": "CreativeWork",
          "name": "Uranium Behavior in Jurassic Fish Coprolites: Combined Microbeam Synchrotron X-Ray Fluorescence, Diffraction, and XANES Analysis"
        },
        {
          "@type": "CreativeWork",
          "name": "Uranium Incorporation Into Pedogenic Carbonates"
        }
      ]
    },
    "url": [
      "https://gsecars.uchicago.edu/",
      "https://seescience.org/"
    ],
    "identifier": {
      "@type": "PropertyValue",
      "propertyID": "Scopus Author ID",
      "value": "25944003000"
    }
   }
   }
}
}

Latest revision as of 21:44, 30 August 2024

{

 "OpenAlex": {
   "id": "https://openalex.org/A5023508459",
   "orcid": "https://orcid.org/0000-0002-7597-5924",
   "display_name": "Antonio Lanzirotti",
   "display_name_alternatives": [
     "Anthony Lanzirotti",
     "A. Lanzirotti",
     "T. Lanzirotti",
     "A. Lanzirottic",
     "Tony Lanzirotti",
     "Antonio Lanzirotti"
   ],
   "works_count": 328,
   "cited_by_count": 10367,
   "summary_stats": {
     "2yr_mean_citedness": 2.5,
     "h_index": 48,
     "i10_index": 139
   },
   "ids": {
     "openalex": "https://openalex.org/A5023508459",
     "orcid": "https://orcid.org/0000-0002-7597-5924",
     "scopus": "http://www.scopus.com/inward/authorDetails.url?authorID=25944003000&partnerID=MN8TOARS"
   },
   "affiliations": [
     {
       "institution": {
         "id": "https://openalex.org/I1282105669",
         "ror": "https://ror.org/05gvnxz63",
         "display_name": "Argonne National Laboratory",
         "country_code": "US",
         "type": "facility",
         "lineage": [
           "https://openalex.org/I1282105669",
           "https://openalex.org/I1330989302",
           "https://openalex.org/I39565521",
           "https://openalex.org/I40347166"
         ]
       },
       "years": [
         2024,
         2023,
         2020,
         2019,
         2018,
         2017,
         2016,
         2014,
         2013,
         2012
       ]
     },
     {
       "institution": {
         "id": "https://openalex.org/I40347166",
         "ror": "https://ror.org/024mw5h28",
         "display_name": "University of Chicago",
         "country_code": "US",
         "type": "education",
         "lineage": [
           "https://openalex.org/I40347166"
         ]
       },
       "years": [
         2024,
         2023,
         2022,
         2021,
         2020,
         2019,
         2018,
         2017,
         2016,
         2015
       ]
     },
     {
       "institution": {
         "id": "https://openalex.org/I55732556",
         "ror": "https://ror.org/03efmqc40",
         "display_name": "Arizona State University",
         "country_code": "US",
         "type": "education",
         "lineage": [
           "https://openalex.org/I55732556"
         ]
       },
       "years": [
         2023
       ]
     },
     {
       "institution": {
         "id": "https://openalex.org/I84218800",
         "ror": "https://ror.org/05rrcem69",
         "display_name": "University of California, Davis",
         "country_code": "US",
         "type": "education",
         "lineage": [
           "https://openalex.org/I84218800"
         ]
       },
       "years": [
         2015
       ]
     },
     {
       "institution": {
         "id": "https://openalex.org/I200870766",
         "ror": "https://ror.org/02ex6cf31",
         "display_name": "Brookhaven National Laboratory",
         "country_code": "US",
         "type": "facility",
         "lineage": [
           "https://openalex.org/I1330989302",
           "https://openalex.org/I200870766",
           "https://openalex.org/I39565521",
           "https://openalex.org/I4210142672"
         ]
       },
       "years": [
         2012,
         2011,
         2010,
         2009,
         2008,
         2007,
         2006,
         2005,
         2004,
         2001
       ]
     },
     {
       "institution": {
         "id": "https://openalex.org/I107672454",
         "ror": "https://ror.org/049s0rh22",
         "display_name": "Dartmouth College",
         "country_code": "US",
         "type": "education",
         "lineage": [
           "https://openalex.org/I107672454"
         ]
       },
       "years": [
         2012,
         2010,
         2006
       ]
     },
     {
       "institution": {
         "id": "https://openalex.org/I181547552",
         "ror": "https://ror.org/02pttbw34",
         "display_name": "Baylor College of Medicine",
         "country_code": "US",
         "type": "education",
         "lineage": [
           "https://openalex.org/I181547552",
           "https://openalex.org/I2801539370"
         ]
       },
       "years": [
         2012
       ]
     },
     {
       "institution": {
         "id": "https://openalex.org/I1336096307",
         "ror": "https://ror.org/01na82s61",
         "display_name": "United States Department of Agriculture",
         "country_code": "US",
         "type": "government",
         "lineage": [
           "https://openalex.org/I1336096307"
         ]
       },
       "years": [
         2012
       ]
     },
     {
       "institution": {
         "id": "https://openalex.org/I1312222531",
         "ror": "https://ror.org/02d2m2044",
         "display_name": "Agricultural Research Service",
         "country_code": "US",
         "type": "government",
         "lineage": [
           "https://openalex.org/I1312222531",
           "https://openalex.org/I1336096307"
         ]
       },
       "years": [
         2012
       ]
     },
     {
       "institution": {
         "id": "https://openalex.org/I59553526",
         "ror": "https://ror.org/05qghxh33",
         "display_name": "Stony Brook University",
         "country_code": "US",
         "type": "education",
         "lineage": [
           "https://openalex.org/I59553526"
         ]
       },
       "years": [
         2012,
         1997,
         1996,
         1995
       ]
     }
   ],
   "last_known_institutions": [
     {
       "id": "https://openalex.org/I40347166",
       "ror": "https://ror.org/024mw5h28",
       "display_name": "University of Chicago",
       "country_code": "US",
       "type": "education",
       "lineage": [
         "https://openalex.org/I40347166"
       ]
     }
   ],
   "topics": [
     {
       "id": "https://openalex.org/T10001",
       "display_name": "Tectonic and Geochronological Evolution of Orogens",
       "count": 36,
       "subfield": {
         "id": "https://openalex.org/subfields/1908",
         "display_name": "Geophysics"
       },
       "field": {
         "id": "https://openalex.org/fields/19",
         "display_name": "Earth and Planetary Sciences"
       },
       "domain": {
         "id": "https://openalex.org/domains/3",
         "display_name": "Physical Sciences"
       }
     },
     {
       "id": "https://openalex.org/T11733",
       "display_name": "X-ray Absorption Spectroscopy",
       "count": 27,
       "subfield": {
         "id": "https://openalex.org/subfields/3108",
         "display_name": "Radiation"
       },
       "field": {
         "id": "https://openalex.org/fields/31",
         "display_name": "Physics and Astronomy"
       },
       "domain": {
         "id": "https://openalex.org/domains/3",
         "display_name": "Physical Sciences"
       }
     },
     {
       "id": "https://openalex.org/T12157",
       "display_name": "Machine Learning for Mineral Prospectivity Mapping",
       "count": 26,
       "subfield": {
         "id": "https://openalex.org/subfields/1702",
         "display_name": "Artificial Intelligence"
       },
       "field": {
         "id": "https://openalex.org/fields/17",
         "display_name": "Computer Science"
       },
       "domain": {
         "id": "https://openalex.org/domains/3",
         "display_name": "Physical Sciences"
       }
     },
     {
       "id": "https://openalex.org/T10406",
       "display_name": "Exploration and Study of Mars",
       "count": 22,
       "subfield": {
         "id": "https://openalex.org/subfields/3103",
         "display_name": "Astronomy and Astrophysics"
       },
       "field": {
         "id": "https://openalex.org/fields/31",
         "display_name": "Physics and Astronomy"
       },
       "domain": {
         "id": "https://openalex.org/domains/3",
         "display_name": "Physical Sciences"
       }
     },
     {
       "id": "https://openalex.org/T10325",
       "display_name": "Formation and Evolution of the Solar System",
       "count": 22,
       "subfield": {
         "id": "https://openalex.org/subfields/3103",
         "display_name": "Astronomy and Astrophysics"
       },
       "field": {
         "id": "https://openalex.org/fields/31",
         "display_name": "Physics and Astronomy"
       },
       "domain": {
         "id": "https://openalex.org/domains/3",
         "display_name": "Physical Sciences"
       }
     },
     {
       "id": "https://openalex.org/T10399",
       "display_name": "Characterization of Shale Gas Pore Structure",
       "count": 17,
       "subfield": {
         "id": "https://openalex.org/subfields/2211",
         "display_name": "Mechanics of Materials"
       },
       "field": {
         "id": "https://openalex.org/fields/22",
         "display_name": "Engineering"
       },
       "domain": {
         "id": "https://openalex.org/domains/3",
         "display_name": "Physical Sciences"
       }
     },
     {
       "id": "https://openalex.org/T10413",
       "display_name": "Mantle Dynamics and Earth's Structure",
       "count": 16,
       "subfield": {
         "id": "https://openalex.org/subfields/1908",
         "display_name": "Geophysics"
       },
       "field": {
         "id": "https://openalex.org/fields/19",
         "display_name": "Earth and Planetary Sciences"
       },
       "domain": {
         "id": "https://openalex.org/domains/3",
         "display_name": "Physical Sciences"
       }
     },
     {
       "id": "https://openalex.org/T10544",
       "display_name": "Glass Science and Technology",
       "count": 12,
       "subfield": {
         "id": "https://openalex.org/subfields/2503",
         "display_name": "Ceramics and Composites"
       },
       "field": {
         "id": "https://openalex.org/fields/25",
         "display_name": "Materials Science"
       },
       "domain": {
         "id": "https://openalex.org/domains/3",
         "display_name": "Physical Sciences"
       }
     },
     {
       "id": "https://openalex.org/T10017",
       "display_name": "Climate Change and Paleoclimatology",
       "count": 12,
       "subfield": {
         "id": "https://openalex.org/subfields/1902",
         "display_name": "Atmospheric Science"
       },
       "field": {
         "id": "https://openalex.org/fields/19",
         "display_name": "Earth and Planetary Sciences"
       },
       "domain": {
         "id": "https://openalex.org/domains/3",
         "display_name": "Physical Sciences"
       }
     },
     {
       "id": "https://openalex.org/T10109",
       "display_name": "Paleoredox and Paleoproductivity Proxies",
       "count": 11,
       "subfield": {
         "id": "https://openalex.org/subfields/1911",
         "display_name": "Paleontology"
       },
       "field": {
         "id": "https://openalex.org/fields/19",
         "display_name": "Earth and Planetary Sciences"
       },
       "domain": {
         "id": "https://openalex.org/domains/3",
         "display_name": "Physical Sciences"
       }
     },
     {
       "id": "https://openalex.org/T11740",
       "display_name": "Geochemistry of Manganese Oxides in Sedimentary Environments",
       "count": 9,
       "subfield": {
         "id": "https://openalex.org/subfields/1906",
         "display_name": "Geochemistry and Petrology"
       },
       "field": {
         "id": "https://openalex.org/fields/19",
         "display_name": "Earth and Planetary Sciences"
       },
       "domain": {
         "id": "https://openalex.org/domains/3",
         "display_name": "Physical Sciences"
       }
     },
     {
       "id": "https://openalex.org/T10139",
       "display_name": "Environmental Impact of Heavy Metal Contamination",
       "count": 9,
       "subfield": {
         "id": "https://openalex.org/subfields/2310",
         "display_name": "Pollution"
       },
       "field": {
         "id": "https://openalex.org/fields/23",
         "display_name": "Environmental Science"
       },
       "domain": {
         "id": "https://openalex.org/domains/3",
         "display_name": "Physical Sciences"
       }
     },
     {
       "id": "https://openalex.org/T11786",
       "display_name": "Magnetosome Formation in Prokaryotes",
       "count": 9,
       "subfield": {
         "id": "https://openalex.org/subfields/1312",
         "display_name": "Molecular Biology"
       },
       "field": {
         "id": "https://openalex.org/fields/13",
         "display_name": "Biochemistry, Genetics and Molecular Biology"
       },
       "domain": {
         "id": "https://openalex.org/domains/1",
         "display_name": "Life Sciences"
       }
     },
     {
       "id": "https://openalex.org/T11183",
       "display_name": "X-ray Imaging Techniques and Applications",
       "count": 8,
       "subfield": {
         "id": "https://openalex.org/subfields/3108",
         "display_name": "Radiation"
       },
       "field": {
         "id": "https://openalex.org/fields/31",
         "display_name": "Physics and Astronomy"
       },
       "domain": {
         "id": "https://openalex.org/domains/3",
         "display_name": "Physical Sciences"
       }
     },
     {
       "id": "https://openalex.org/T11949",
       "display_name": "Neutron Imaging and Analysis Techniques",
       "count": 8,
       "subfield": {
         "id": "https://openalex.org/subfields/3108",
         "display_name": "Radiation"
       },
       "field": {
         "id": "https://openalex.org/fields/31",
         "display_name": "Physics and Astronomy"
       },
       "domain": {
         "id": "https://openalex.org/domains/3",
         "display_name": "Physical Sciences"
       }
     },
     {
       "id": "https://openalex.org/T11854",
       "display_name": "Laser-Induced Breakdown Spectroscopy in Material Analysis",
       "count": 7,
       "subfield": {
         "id": "https://openalex.org/subfields/2211",
         "display_name": "Mechanics of Materials"
       },
       "field": {
         "id": "https://openalex.org/fields/22",
         "display_name": "Engineering"
       },
       "domain": {
         "id": "https://openalex.org/domains/3",
         "display_name": "Physical Sciences"
       }
     },
     {
       "id": "https://openalex.org/T12039",
       "display_name": "Surface Analysis and Electron Spectroscopy Techniques",
       "count": 7,
       "subfield": {
         "id": "https://openalex.org/subfields/2508",
         "display_name": "Surfaces, Coatings and Films"
       },
       "field": {
         "id": "https://openalex.org/fields/25",
         "display_name": "Materials Science"
       },
       "domain": {
         "id": "https://openalex.org/domains/3",
         "display_name": "Physical Sciences"
       }
     },
     {
       "id": "https://openalex.org/T10973",
       "display_name": "Chemistry of Actinide and Lanthanide Elements",
       "count": 7,
       "subfield": {
         "id": "https://openalex.org/subfields/1604",
         "display_name": "Inorganic Chemistry"
       },
       "field": {
         "id": "https://openalex.org/fields/16",
         "display_name": "Chemistry"
       },
       "domain": {
         "id": "https://openalex.org/domains/3",
         "display_name": "Physical Sciences"
       }
     },
     {
       "id": "https://openalex.org/T11852",
       "display_name": "Applications of Clay Nanotubes in Various Fields",
       "count": 6,
       "subfield": {
         "id": "https://openalex.org/subfields/2502",
         "display_name": "Biomaterials"
       },
       "field": {
         "id": "https://openalex.org/fields/25",
         "display_name": "Materials Science"
       },
       "domain": {
         "id": "https://openalex.org/domains/3",
         "display_name": "Physical Sciences"
       }
     },
     {
       "id": "https://openalex.org/T12166",
       "display_name": "Ion Beam Surface Analysis and Nanoscale Patterning",
       "count": 6,
       "subfield": {
         "id": "https://openalex.org/subfields/2206",
         "display_name": "Computational Mechanics"
       },
       "field": {
         "id": "https://openalex.org/fields/22",
         "display_name": "Engineering"
       },
       "domain": {
         "id": "https://openalex.org/domains/3",
         "display_name": "Physical Sciences"
       }
     },
     {
       "id": "https://openalex.org/T12073",
       "display_name": "Application of Stable Isotopes in Trophic Ecology",
       "count": 6,
       "subfield": {
         "id": "https://openalex.org/subfields/2303",
         "display_name": "Ecology"
       },
       "field": {
         "id": "https://openalex.org/fields/23",
         "display_name": "Environmental Science"
       },
       "domain": {
         "id": "https://openalex.org/domains/3",
         "display_name": "Physical Sciences"
       }
     },
     {
       "id": "https://openalex.org/T10110",
       "display_name": "Seismicity and Tectonic Plate Interactions",
       "count": 6,
       "subfield": {
         "id": "https://openalex.org/subfields/1908",
         "display_name": "Geophysics"
       },
       "field": {
         "id": "https://openalex.org/fields/19",
         "display_name": "Earth and Planetary Sciences"
       },
       "domain": {
         "id": "https://openalex.org/domains/3",
         "display_name": "Physical Sciences"
       }
     },
     {
       "id": "https://openalex.org/T11877",
       "display_name": "Solar Water Splitting Technology",
       "count": 5,
       "subfield": {
         "id": "https://openalex.org/subfields/2105",
         "display_name": "Renewable Energy, Sustainability and the Environment"
       },
       "field": {
         "id": "https://openalex.org/fields/21",
         "display_name": "Energy"
       },
       "domain": {
         "id": "https://openalex.org/domains/3",
         "display_name": "Physical Sciences"
       }
     },
     {
       "id": "https://openalex.org/T10710",
       "display_name": "Arsenic Contamination in Natural Waters",
       "count": 4,
       "subfield": {
         "id": "https://openalex.org/subfields/2304",
         "display_name": "Environmental Chemistry"
       },
       "field": {
         "id": "https://openalex.org/fields/23",
         "display_name": "Environmental Science"
       },
       "domain": {
         "id": "https://openalex.org/domains/3",
         "display_name": "Physical Sciences"
       }
     },
     {
       "id": "https://openalex.org/T11972",
       "display_name": "Chromium Bioremediation and Health Impacts",
       "count": 4,
       "subfield": {
         "id": "https://openalex.org/subfields/2307",
         "display_name": "Health, Toxicology and Mutagenesis"
       },
       "field": {
         "id": "https://openalex.org/fields/23",
         "display_name": "Environmental Science"
       },
       "domain": {
         "id": "https://openalex.org/domains/3",
         "display_name": "Physical Sciences"
       }
     }
   ],
   "topic_share": [
     {
       "id": "https://openalex.org/T11733",
       "display_name": "X-ray Absorption Spectroscopy",
       "value": 0.0001917,
       "subfield": {
         "id": "https://openalex.org/subfields/3108",
         "display_name": "Radiation"
       },
       "field": {
         "id": "https://openalex.org/fields/31",
         "display_name": "Physics and Astronomy"
       },
       "domain": {
         "id": "https://openalex.org/domains/3",
         "display_name": "Physical Sciences"
       }
     },
     {
       "id": "https://openalex.org/T14108",
       "display_name": "Pharmacological and Forensic Studies in Healthcare",
       "value": 0.0001304,
       "subfield": {
         "id": "https://openalex.org/subfields/3004",
         "display_name": "Pharmacology"
       },
       "field": {
         "id": "https://openalex.org/fields/30",
         "display_name": "Pharmacology, Toxicology and Pharmaceutics"
       },
       "domain": {
         "id": "https://openalex.org/domains/1",
         "display_name": "Life Sciences"
       }
     },
     {
       "id": "https://openalex.org/T11183",
       "display_name": "X-ray Imaging Techniques and Applications",
       "value": 8.1e-05,
       "subfield": {
         "id": "https://openalex.org/subfields/3108",
         "display_name": "Radiation"
       },
       "field": {
         "id": "https://openalex.org/fields/31",
         "display_name": "Physics and Astronomy"
       },
       "domain": {
         "id": "https://openalex.org/domains/3",
         "display_name": "Physical Sciences"
       }
     },
     {
       "id": "https://openalex.org/T11740",
       "display_name": "Geochemistry of Manganese Oxides in Sedimentary Environments",
       "value": 8.09e-05,
       "subfield": {
         "id": "https://openalex.org/subfields/1906",
         "display_name": "Geochemistry and Petrology"
       },
       "field": {
         "id": "https://openalex.org/fields/19",
         "display_name": "Earth and Planetary Sciences"
       },
       "domain": {
         "id": "https://openalex.org/domains/3",
         "display_name": "Physical Sciences"
       }
     },
     {
       "id": "https://openalex.org/T10001",
       "display_name": "Tectonic and Geochronological Evolution of Orogens",
       "value": 7.49e-05,
       "subfield": {
         "id": "https://openalex.org/subfields/1908",
         "display_name": "Geophysics"
       },
       "field": {
         "id": "https://openalex.org/fields/19",
         "display_name": "Earth and Planetary Sciences"
       },
       "domain": {
         "id": "https://openalex.org/domains/3",
         "display_name": "Physical Sciences"
       }
     },
     {
       "id": "https://openalex.org/T10544",
       "display_name": "Glass Science and Technology",
       "value": 6.8e-05,
       "subfield": {
         "id": "https://openalex.org/subfields/2503",
         "display_name": "Ceramics and Composites"
       },
       "field": {
         "id": "https://openalex.org/fields/25",
         "display_name": "Materials Science"
       },
       "domain": {
         "id": "https://openalex.org/domains/3",
         "display_name": "Physical Sciences"
       }
     },
     {
       "id": "https://openalex.org/T10406",
       "display_name": "Exploration and Study of Mars",
       "value": 6.45e-05,
       "subfield": {
         "id": "https://openalex.org/subfields/3103",
         "display_name": "Astronomy and Astrophysics"
       },
       "field": {
         "id": "https://openalex.org/fields/31",
         "display_name": "Physics and Astronomy"
       },
       "domain": {
         "id": "https://openalex.org/domains/3",
         "display_name": "Physical Sciences"
       }
     },
     {
       "id": "https://openalex.org/T10710",
       "display_name": "Arsenic Contamination in Natural Waters",
       "value": 6.02e-05,
       "subfield": {
         "id": "https://openalex.org/subfields/2304",
         "display_name": "Environmental Chemistry"
       },
       "field": {
         "id": "https://openalex.org/fields/23",
         "display_name": "Environmental Science"
       },
       "domain": {
         "id": "https://openalex.org/domains/3",
         "display_name": "Physical Sciences"
       }
     },
     {
       "id": "https://openalex.org/T11972",
       "display_name": "Chromium Bioremediation and Health Impacts",
       "value": 5.93e-05,
       "subfield": {
         "id": "https://openalex.org/subfields/2307",
         "display_name": "Health, Toxicology and Mutagenesis"
       },
       "field": {
         "id": "https://openalex.org/fields/23",
         "display_name": "Environmental Science"
       },
       "domain": {
         "id": "https://openalex.org/domains/3",
         "display_name": "Physical Sciences"
       }
     },
     {
       "id": "https://openalex.org/T12157",
       "display_name": "Machine Learning for Mineral Prospectivity Mapping",
       "value": 5.89e-05,
       "subfield": {
         "id": "https://openalex.org/subfields/1702",
         "display_name": "Artificial Intelligence"
       },
       "field": {
         "id": "https://openalex.org/fields/17",
         "display_name": "Computer Science"
       },
       "domain": {
         "id": "https://openalex.org/domains/3",
         "display_name": "Physical Sciences"
       }
     },
     {
       "id": "https://openalex.org/T13568",
       "display_name": "Chemical Constituents and Production of Agarwood",
       "value": 5.63e-05,
       "subfield": {
         "id": "https://openalex.org/subfields/1605",
         "display_name": "Organic Chemistry"
       },
       "field": {
         "id": "https://openalex.org/fields/16",
         "display_name": "Chemistry"
       },
       "domain": {
         "id": "https://openalex.org/domains/3",
         "display_name": "Physical Sciences"
       }
     },
     {
       "id": "https://openalex.org/T11923",
       "display_name": "Acid Mine Drainage Remediation and Biogeochemistry",
       "value": 5.6e-05,
       "subfield": {
         "id": "https://openalex.org/subfields/2304",
         "display_name": "Environmental Chemistry"
       },
       "field": {
         "id": "https://openalex.org/fields/23",
         "display_name": "Environmental Science"
       },
       "domain": {
         "id": "https://openalex.org/domains/3",
         "display_name": "Physical Sciences"
       }
     },
     {
       "id": "https://openalex.org/T11852",
       "display_name": "Applications of Clay Nanotubes in Various Fields",
       "value": 5.31e-05,
       "subfield": {
         "id": "https://openalex.org/subfields/2502",
         "display_name": "Biomaterials"
       },
       "field": {
         "id": "https://openalex.org/fields/25",
         "display_name": "Materials Science"
       },
       "domain": {
         "id": "https://openalex.org/domains/3",
         "display_name": "Physical Sciences"
       }
     },
     {
       "id": "https://openalex.org/T11302",
       "display_name": "Carbon Dioxide Sequestration in Geological Formations",
       "value": 5.05e-05,
       "subfield": {
         "id": "https://openalex.org/subfields/2305",
         "display_name": "Environmental Engineering"
       },
       "field": {
         "id": "https://openalex.org/fields/23",
         "display_name": "Environmental Science"
       },
       "domain": {
         "id": "https://openalex.org/domains/3",
         "display_name": "Physical Sciences"
       }
     },
     {
       "id": "https://openalex.org/T10109",
       "display_name": "Paleoredox and Paleoproductivity Proxies",
       "value": 5.03e-05,
       "subfield": {
         "id": "https://openalex.org/subfields/1911",
         "display_name": "Paleontology"
       },
       "field": {
         "id": "https://openalex.org/fields/19",
         "display_name": "Earth and Planetary Sciences"
       },
       "domain": {
         "id": "https://openalex.org/domains/3",
         "display_name": "Physical Sciences"
       }
     },
     {
       "id": "https://openalex.org/T11877",
       "display_name": "Solar Water Splitting Technology",
       "value": 4.71e-05,
       "subfield": {
         "id": "https://openalex.org/subfields/2105",
         "display_name": "Renewable Energy, Sustainability and the Environment"
       },
       "field": {
         "id": "https://openalex.org/fields/21",
         "display_name": "Energy"
       },
       "domain": {
         "id": "https://openalex.org/domains/3",
         "display_name": "Physical Sciences"
       }
     },
     {
       "id": "https://openalex.org/T10413",
       "display_name": "Mantle Dynamics and Earth's Structure",
       "value": 4.63e-05,
       "subfield": {
         "id": "https://openalex.org/subfields/1908",
         "display_name": "Geophysics"
       },
       "field": {
         "id": "https://openalex.org/fields/19",
         "display_name": "Earth and Planetary Sciences"
       },
       "domain": {
         "id": "https://openalex.org/domains/3",
         "display_name": "Physical Sciences"
       }
     },
     {
       "id": "https://openalex.org/T11278",
       "display_name": "Bioinspired Structural Materials and Biomineralization",
       "value": 4.54e-05,
       "subfield": {
         "id": "https://openalex.org/subfields/2502",
         "display_name": "Biomaterials"
       },
       "field": {
         "id": "https://openalex.org/fields/25",
         "display_name": "Materials Science"
       },
       "domain": {
         "id": "https://openalex.org/domains/3",
         "display_name": "Physical Sciences"
       }
     },
     {
       "id": "https://openalex.org/T10139",
       "display_name": "Environmental Impact of Heavy Metal Contamination",
       "value": 4.51e-05,
       "subfield": {
         "id": "https://openalex.org/subfields/2310",
         "display_name": "Pollution"
       },
       "field": {
         "id": "https://openalex.org/fields/23",
         "display_name": "Environmental Science"
       },
       "domain": {
         "id": "https://openalex.org/domains/3",
         "display_name": "Physical Sciences"
       }
     },
     {
       "id": "https://openalex.org/T12195",
       "display_name": "Chemistry and Applications of Aerogels",
       "value": 3.89e-05,
       "subfield": {
         "id": "https://openalex.org/subfields/1607",
         "display_name": "Spectroscopy"
       },
       "field": {
         "id": "https://openalex.org/fields/16",
         "display_name": "Chemistry"
       },
       "domain": {
         "id": "https://openalex.org/domains/3",
         "display_name": "Physical Sciences"
       }
     },
     {
       "id": "https://openalex.org/T10399",
       "display_name": "Characterization of Shale Gas Pore Structure",
       "value": 3.88e-05,
       "subfield": {
         "id": "https://openalex.org/subfields/2211",
         "display_name": "Mechanics of Materials"
       },
       "field": {
         "id": "https://openalex.org/fields/22",
         "display_name": "Engineering"
       },
       "domain": {
         "id": "https://openalex.org/domains/3",
         "display_name": "Physical Sciences"
       }
     },
     {
       "id": "https://openalex.org/T10325",
       "display_name": "Formation and Evolution of the Solar System",
       "value": 3.68e-05,
       "subfield": {
         "id": "https://openalex.org/subfields/3103",
         "display_name": "Astronomy and Astrophysics"
       },
       "field": {
         "id": "https://openalex.org/fields/31",
         "display_name": "Physics and Astronomy"
       },
       "domain": {
         "id": "https://openalex.org/domains/3",
         "display_name": "Physical Sciences"
       }
     },
     {
       "id": "https://openalex.org/T11854",
       "display_name": "Laser-Induced Breakdown Spectroscopy in Material Analysis",
       "value": 3.65e-05,
       "subfield": {
         "id": "https://openalex.org/subfields/2211",
         "display_name": "Mechanics of Materials"
       },
       "field": {
         "id": "https://openalex.org/fields/22",
         "display_name": "Engineering"
       },
       "domain": {
         "id": "https://openalex.org/domains/3",
         "display_name": "Physical Sciences"
       }
     },
     {
       "id": "https://openalex.org/T11786",
       "display_name": "Magnetosome Formation in Prokaryotes",
       "value": 3.51e-05,
       "subfield": {
         "id": "https://openalex.org/subfields/1312",
         "display_name": "Molecular Biology"
       },
       "field": {
         "id": "https://openalex.org/fields/13",
         "display_name": "Biochemistry, Genetics and Molecular Biology"
       },
       "domain": {
         "id": "https://openalex.org/domains/1",
         "display_name": "Life Sciences"
       }
     },
     {
       "id": "https://openalex.org/T13443",
       "display_name": "Geochemistry and Petrology of Gemstones",
       "value": 3.38e-05,
       "subfield": {
         "id": "https://openalex.org/subfields/1906",
         "display_name": "Geochemistry and Petrology"
       },
       "field": {
         "id": "https://openalex.org/fields/19",
         "display_name": "Earth and Planetary Sciences"
       },
       "domain": {
         "id": "https://openalex.org/domains/3",
         "display_name": "Physical Sciences"
       }
     }
   ],
   "x_concepts": [
     {
       "id": "https://openalex.org/C185592680",
       "wikidata": "https://www.wikidata.org/wiki/Q2329",
       "display_name": "Chemistry",
       "level": 0,
       "score": 83.8
     },
     {
       "id": "https://openalex.org/C121332964",
       "wikidata": "https://www.wikidata.org/wiki/Q413",
       "display_name": "Physics",
       "level": 0,
       "score": 82.9
     },
     {
       "id": "https://openalex.org/C192562407",
       "wikidata": "https://www.wikidata.org/wiki/Q228736",
       "display_name": "Materials science",
       "level": 0,
       "score": 75.3
     },
     {
       "id": "https://openalex.org/C86803240",
       "wikidata": "https://www.wikidata.org/wiki/Q420",
       "display_name": "Biology",
       "level": 0,
       "score": 73.8
     },
     {
       "id": "https://openalex.org/C127313418",
       "wikidata": "https://www.wikidata.org/wiki/Q1069",
       "display_name": "Geology",
       "level": 0,
       "score": 72.0
     },
     {
       "id": "https://openalex.org/C178790620",
       "wikidata": "https://www.wikidata.org/wiki/Q11351",
       "display_name": "Organic chemistry",
       "level": 1,
       "score": 65.9
     },
     {
       "id": "https://openalex.org/C62520636",
       "wikidata": "https://www.wikidata.org/wiki/Q944",
       "display_name": "Quantum mechanics",
       "level": 1,
       "score": 59.1
     },
     {
       "id": "https://openalex.org/C191897082",
       "wikidata": "https://www.wikidata.org/wiki/Q11467",
       "display_name": "Metallurgy",
       "level": 1,
       "score": 52.1
     },
     {
       "id": "https://openalex.org/C199289684",
       "wikidata": "https://www.wikidata.org/wiki/Q83353",
       "display_name": "Mineralogy",
       "level": 1,
       "score": 47.6
     },
     {
       "id": "https://openalex.org/C120665830",
       "wikidata": "https://www.wikidata.org/wiki/Q14620",
       "display_name": "Optics",
       "level": 1,
       "score": 42.1
     },
     {
       "id": "https://openalex.org/C1276947",
       "wikidata": "https://www.wikidata.org/wiki/Q333",
       "display_name": "Astronomy",
       "level": 1,
       "score": 41.2
     },
     {
       "id": "https://openalex.org/C151730666",
       "wikidata": "https://www.wikidata.org/wiki/Q7205",
       "display_name": "Paleontology",
       "level": 1,
       "score": 39.0
     },
     {
       "id": "https://openalex.org/C107872376",
       "wikidata": "https://www.wikidata.org/wiki/Q321355",
       "display_name": "Environmental chemistry",
       "level": 1,
       "score": 37.5
     },
     {
       "id": "https://openalex.org/C127413603",
       "wikidata": "https://www.wikidata.org/wiki/Q11023",
       "display_name": "Engineering",
       "level": 0,
       "score": 37.5
     },
     {
       "id": "https://openalex.org/C185544564",
       "wikidata": "https://www.wikidata.org/wiki/Q81197",
       "display_name": "Nuclear physics",
       "level": 1,
       "score": 37.2
     },
     {
       "id": "https://openalex.org/C17409809",
       "wikidata": "https://www.wikidata.org/wiki/Q161764",
       "display_name": "Geochemistry",
       "level": 1,
       "score": 36.0
     },
     {
       "id": "https://openalex.org/C18903297",
       "wikidata": "https://www.wikidata.org/wiki/Q7150",
       "display_name": "Ecology",
       "level": 1,
       "score": 28.4
     },
     {
       "id": "https://openalex.org/C159985019",
       "wikidata": "https://www.wikidata.org/wiki/Q181790",
       "display_name": "Composite material",
       "level": 1,
       "score": 26.5
     },
     {
       "id": "https://openalex.org/C32891209",
       "wikidata": "https://www.wikidata.org/wiki/Q483666",
       "display_name": "Spectroscopy",
       "level": 2,
       "score": 24.4
     },
     {
       "id": "https://openalex.org/C43617362",
       "wikidata": "https://www.wikidata.org/wiki/Q170050",
       "display_name": "Chromatography",
       "level": 1,
       "score": 22.3
     },
     {
       "id": "https://openalex.org/C21368211",
       "wikidata": "https://www.wikidata.org/wiki/Q689863",
       "display_name": "Synchrotron",
       "level": 2,
       "score": 21.0
     },
     {
       "id": "https://openalex.org/C113196181",
       "wikidata": "https://www.wikidata.org/wiki/Q485223",
       "display_name": "Analytical Chemistry (journal)",
       "level": 2,
       "score": 21.0
     },
     {
       "id": "https://openalex.org/C42360764",
       "wikidata": "https://www.wikidata.org/wiki/Q83588",
       "display_name": "Chemical engineering",
       "level": 1,
       "score": 20.1
     }
   ],
   "counts_by_year": [
     {
       "year": 2024,
       "works_count": 9,
       "cited_by_count": 867
     },
     {
       "year": 2023,
       "works_count": 10,
       "cited_by_count": 1191
     },
     {
       "year": 2022,
       "works_count": 9,
       "cited_by_count": 1479
     },
     {
       "year": 2021,
       "works_count": 11,
       "cited_by_count": 1541
     },
     {
       "year": 2020,
       "works_count": 16,
       "cited_by_count": 1488
     },
     {
       "year": 2019,
       "works_count": 17,
       "cited_by_count": 1349
     },
     {
       "year": 2018,
       "works_count": 12,
       "cited_by_count": 1182
     },
     {
       "year": 2017,
       "works_count": 15,
       "cited_by_count": 1167
     },
     {
       "year": 2016,
       "works_count": 19,
       "cited_by_count": 1196
     },
     {
       "year": 2015,
       "works_count": 13,
       "cited_by_count": 1117
     },
     {
       "year": 2014,
       "works_count": 10,
       "cited_by_count": 1264
     },
     {
       "year": 2013,
       "works_count": 11,
       "cited_by_count": 1249
     },
     {
       "year": 2012,
       "works_count": 17,
       "cited_by_count": 1410
     }
   ],
   "works_api_url": "https://api.openalex.org/works?filter=author.id:A5023508459",
   "updated_date": "2024-08-26T19:44:16.443934",
   "created_date": "2023-07-21",
   "_id": "https://openalex.org/A5023508459"
 },
 "ORCID": {
   "@context": "http://schema.org",
   "@type": "Person",
   "@id": "https://orcid.org/0000-0002-7597-5924",
   "mainEntityOfPage": "https://orcid.org/0000-0002-7597-5924",
   "givenName": "Antonio",
   "familyName": "Lanzirotti",
   "alumniOf": [
     {
       "@type": "Organization",
       "name": "New Mexico Institute of Mining and Technology",
       "alternateName": "Earth Sciences",
       "identifier": {
         "@type": "PropertyValue",
         "propertyID": "RINGGOLD",
         "value": "7374"
       }
     },
     {
       "@type": "Organization",
       "name": "Stony Brook University",
       "alternateName": "Earth and Space Sciences",
       "identifier": {
         "@type": "PropertyValue",
         "propertyID": "RINGGOLD",
         "value": "12301"
       }
     }
   ],
   "affiliation": {
     "@type": "Organization",
     "name": "The University of Chicago",
     "alternateName": "Center for Advanced Radiation Sources",
     "identifier": {
       "@type": "PropertyValue",
       "propertyID": "RINGGOLD",
       "value": "2462"
     }
   },
   "@reverse": {
     "creator": [
       {
         "@type": "CreativeWork",
         "@id": "https://doi.org/10.1016/j.gca.2024.07.032",
         "name": "Uranium oxidation states in zircon and other accessory phases",
         "identifier": {
           "@type": "PropertyValue",
           "propertyID": "doi",
           "value": "10.1016/j.gca.2024.07.032"
         }
       },
       {
         "@type": "CreativeWork",
         "@id": "https://doi.org/10.1126/science.adh8199",
         "name": "Biogenic-to-lithogenic handoff of particulate Zn affects the Zn cycle in the Southern Ocean",
         "identifier": {
           "@type": "PropertyValue",
           "propertyID": "doi",
           "value": "10.1126/science.adh8199"
         }
       },
       {
         "@type": "CreativeWork",
         "@id": "https://doi.org/10.1016/j.gca.2024.03.018",
         "name": "Mapping the redox state of the young Solar System using ytterbium valence state",
         "identifier": {
           "@type": "PropertyValue",
           "propertyID": "doi",
           "value": "10.1016/j.gca.2024.03.018"
         }
       },
       {
         "@type": "CreativeWork",
         "@id": "https://doi.org/10.2138/am-2022-8833",
         "name": "Sulfur speciation in dacitic melts using X-ray absorption near-edge structure spectroscopy of the S K-edge (S-XANES): Consideration of radiation-induced changes and the implications for sulfur in natural arc systems",
         "identifier": {
           "@type": "PropertyValue",
           "propertyID": "doi",
           "value": "10.2138/am-2022-8833"
         }
       },
       {
         "@type": "CreativeWork",
         "@id": "https://doi.org/10.1016/j.chemgeo.2024.121937",
         "name": "Fe K\u03b1 XANES, Fe K\u03b2 HERFD XANES and EPMA flank method determinations of the oxidation state of Fe in garnet",
         "identifier": {
           "@type": "PropertyValue",
           "propertyID": "doi",
           "value": "10.1016/j.chemgeo.2024.121937"
         }
       },
       {
         "@type": "CreativeWork",
         "@id": "https://doi.org/10.1111/maps.14130",
         "name": "Focused\u2010beam X\u2010ray fluorescence and diffraction microtomographies for mineralogical and chemical characterization of unsectioned extraterrestrial samples",
         "identifier": {
           "@type": "PropertyValue",
           "propertyID": "doi",
           "value": "10.1111/maps.14130"
         }
       },
       {
         "@type": "CreativeWork",
         "@id": "https://doi.org/10.1016/j.gca.2023.07.021",
         "name": "The effect of composition, temperature and pressure on the oxidation state and coordination environment of copper in silicate melts",
         "identifier": {
           "@type": "PropertyValue",
           "propertyID": "doi",
           "value": "10.1016/j.gca.2023.07.021"
         }
       },
       {
         "@type": "CreativeWork",
         "@id": "https://doi.org/10.1093/mtomcs/mfad058",
         "name": "Synchrotron X-rays reveal the modes of Fe binding and trace metal storage in the brown algae Laminaria digitata and Ectocarpus siliculosus",
         "identifier": {
           "@type": "PropertyValue",
           "propertyID": "doi",
           "value": "10.1093/mtomcs/mfad058"
         }
       },
       {
         "@type": "CreativeWork",
         "@id": "https://doi.org/10.22541/essoar.169447393.32373052/v1",
         "name": "Nanoscale Analyses of X-ray Amorphous Material from Terrestrial Ultramafic Soils Record Signatures of Environmental Conditions Useful for Interpreting Past Martian Conditions",
         "identifier": {
           "@type": "PropertyValue",
           "propertyID": "doi",
           "value": "10.22541/essoar.169447393.32373052/v1"
         }
       },
       {
         "@type": "CreativeWork",
         "@id": "https://doi.org/10.2138/am-2022-8547",
         "name": "Wave vector and field vector orientation dependence of Fe K pre-edge X-ray absorption features in clinopyroxenes",
         "identifier": {
           "@type": "PropertyValue",
           "propertyID": "doi",
           "value": "10.2138/am-2022-8547"
         }
       },
       {
         "@type": "CreativeWork",
         "@id": "https://doi.org/10.1016/j.chemgeo.2023.121605",
         "name": "Calibration for iron redox state and oxygen fugacity in silicate glasses from x-ray absorption spectroscopy",
         "identifier": {
           "@type": "PropertyValue",
           "propertyID": "doi",
           "value": "10.1016/j.chemgeo.2023.121605"
         }
       },
       {
         "@type": "CreativeWork",
         "@id": "https://doi.org/10.2138/am-2022-8388",
         "name": "Eu speciation in apatite at 1 bar: An experimental study of valence-state partitioning by XANES, lattice strain, and Eu/Eu* in basaltic systems",
         "identifier": {
           "@type": "PropertyValue",
           "propertyID": "doi",
           "value": "10.2138/am-2022-8388"
         }
       },
       {
         "@type": "CreativeWork",
         "@id": "https://doi.org/10.1101/2022.09.05.506690",
         "name": "The mitochondrial Cu+transporter PiC2 (SLC25A3) is a target of MTF1 and contributes to the development of skeletal musclein vitro",
         "identifier": {
           "@type": "PropertyValue",
           "propertyID": "doi",
           "value": "10.1101/2022.09.05.506690"
         }
       },
       {
         "@type": "CreativeWork",
         "@id": "https://doi.org/10.1007/s00269-022-01207-4",
         "name": "GeoSoilEnviroCARS (Sector 13) at the Advanced Photon Source: a comprehensive synchrotron radiation facility for Earth science research at ambient and extreme conditions",
         "identifier": {
           "@type": "PropertyValue",
           "propertyID": "doi",
           "value": "10.1007/s00269-022-01207-4"
         }
       },
       {
         "@type": "CreativeWork",
         "@id": "https://doi.org/10.3389/fclim.2022.913632",
         "name": "Cation Exchange in Smectites as a New Approach to Mineral Carbonation",
         "identifier": {
           "@type": "PropertyValue",
           "propertyID": "doi",
           "value": "10.3389/fclim.2022.913632"
         }
       },
       {
         "@type": "CreativeWork",
         "@id": "https://doi.org/10.2138/am-2021-7933",
         "name": "Radiation-induced changes in vanadium speciation in basaltic glasses: Implications for oxybarometry measurements using vanadium K-edge X-ray absorption spectroscopy",
         "identifier": {
           "@type": "PropertyValue",
           "propertyID": "doi",
           "value": "10.2138/am-2021-7933"
         }
       },
       {
         "@type": "CreativeWork",
         "@id": "https://doi.org/10.2138/am-2021-7950",
         "name": "The absorption indicatrix as an empirical model to describe anisotropy in X-ray absorption spectra of pyroxenes",
         "identifier": {
           "@type": "PropertyValue",
           "propertyID": "doi",
           "value": "10.2138/am-2021-7950"
         }
       },
       {
         "@type": "CreativeWork",
         "@id": "https://doi.org/10.1016/j.cageo.2021.104898",
         "name": "SMART mineral mapping: Synchrotron-based machine learning approach for 2D characterization with coupled micro XRF-XRD",
         "identifier": {
           "@type": "PropertyValue",
           "propertyID": "doi",
           "value": "10.1016/j.cageo.2021.104898"
         }
       },
       {
         "@type": "CreativeWork",
         "@id": "https://doi.org/10.1016/j.gca.2021.07.016",
         "name": "Trace elemental behavior in the solar nebula: Synchrotron X-ray fluorescence analyses of CM and CR chondritic iron sulfides and associated metal",
         "identifier": {
           "@type": "PropertyValue",
           "propertyID": "doi",
           "value": "10.1016/j.gca.2021.07.016"
         }
       },
       {
         "@type": "CreativeWork",
         "@id": "https://doi.org/10.1016/j.gca.2020.09.020",
         "name": "An Experimental-XANES Investigation of Cr Valence Systematics in Basaltic Liquids and Applications to Modeling Cr2+/ \u03a3 Cr Evolution in Crystallizing Basaltic Magma Systems",
         "identifier": {
           "@type": "PropertyValue",
           "propertyID": "doi",
           "value": "10.1016/j.gca.2020.09.020"
         }
       },
       {
         "@type": "CreativeWork",
         "name": "Reply: Data-Driven Motion Correction in Clinical PET: A Joint Accomplishment of Creative Academia and Industry"
       },
       {
         "@type": "CreativeWork",
         "@id": "https://doi.org/10.1111/maps.13603",
         "name": "Valence determinations and oxybarometry on FIB\u2010sectioned olivine and pyroxene using correlated Ti, V, and Cr micro\u2010XAFS spectroscopy: Evaluation of ion\u2010milling effects and application to Antarctic micrometeorite grains",
         "identifier": {
           "@type": "PropertyValue",
           "propertyID": "doi",
           "value": "10.1111/maps.13603"
         }
       },
       {
         "@type": "CreativeWork",
         "@id": "https://doi.org/10.1126/sciadv.abd1387",
         "name": "Redox state of Earth\u2019s magma ocean and its Venus-like early atmosphere",
         "identifier": {
           "@type": "PropertyValue",
           "propertyID": "doi",
           "value": "10.1126/sciadv.abd1387"
         }
       },
       {
         "@type": "CreativeWork",
         "@id": "https://doi.org/10.1016/j.gca.2019.09.029",
         "name": "Direct measurements of copper speciation in basaltic glasses: understanding the relative roles of sulfur and oxygen in copper complexation in melts",
         "identifier": {
           "@type": "PropertyValue",
           "propertyID": "doi",
           "value": "10.1016/j.gca.2019.09.029"
         }
       },
       {
         "@type": "CreativeWork",
         "@id": "https://doi.org/10.1016/j.chemgeo.2019.119328",
         "name": "The source of sulfate in brachiopod calcite: Insights from \u03bc-XRF imaging and XANES spectroscopy",
         "identifier": {
           "@type": "PropertyValue",
           "propertyID": "doi",
           "value": "10.1016/j.chemgeo.2019.119328"
         }
       },
       {
         "@type": "CreativeWork",
         "@id": "https://doi.org/10.1016/j.gca.2019.08.039",
         "name": "Oxidation state and coordination environment of Pb in U-bearing minerals",
         "identifier": {
           "@type": "PropertyValue",
           "propertyID": "doi",
           "value": "10.1016/j.gca.2019.08.039"
         }
       },
       {
         "@type": "CreativeWork",
         "@id": "https://doi.org/10.1016/j.chemgeo.2019.05.036",
         "name": "Depositional and diagenetic constraints on the abundance and spatial variability of carbonate-associated sulfate",
         "identifier": {
           "@type": "PropertyValue",
           "propertyID": "doi",
           "value": "10.1016/j.chemgeo.2019.05.036"
         }
       },
       {
         "@type": "CreativeWork",
         "@id": "https://doi.org/10.1016/j.gca.2019.03.001",
         "name": "Solubility and speciation of iron in hydrothermal fluids",
         "identifier": {
           "@type": "PropertyValue",
           "propertyID": "doi",
           "value": "10.1016/j.gca.2019.03.001"
         }
       },
       {
         "@type": "CreativeWork",
         "@id": "https://doi.org/10.1016/j.chemgeo.2018.07.018",
         "name": "Copper complexation and solubility in high-temperature hydrothermal fluids: A combined study by Raman, X-ray fluorescence, and X-ray absorption spectroscopies and ab initio molecular dynamics simulations",
         "identifier": {
           "@type": "PropertyValue",
           "propertyID": "doi",
           "value": "10.1016/j.chemgeo.2018.07.018"
         }
       },
       {
         "@type": "CreativeWork",
         "@id": "https://doi.org/10.2138/am-2018-6268",
         "name": "A M\u00f6ssbauer-based XANES calibration for hydrous basalt glasses reveals radiation-induced oxidation of Fe",
         "identifier": {
           "@type": "PropertyValue",
           "propertyID": "doi",
           "value": "10.2138/am-2018-6268"
         }
       },
       {
         "@type": "CreativeWork",
         "name": "A M\u00f6ssbauer-based XANES calibration for hydrous basalt glasses reveals radiation-induced oxidation of Fe"
       },
       {
         "@type": "CreativeWork",
         "name": "Ice-VII inclusions in diamonds: Evidence for aqueous fluid in Earth\u2019s deep mantle"
       },
       {
         "@type": "CreativeWork",
         "@id": "https://doi.org/10.1126/science.aao3030",
         "name": "Ice-VII inclusions in diamonds: Evidence for aqueous fluid in Earth\u2019s deep mantle",
         "identifier": [
           {
             "@type": "PropertyValue",
             "propertyID": "doi",
             "value": "10.1126/science.aao3030"
           },
           {
             "@type": "PropertyValue",
             "propertyID": "eid",
             "value": "2-s2.0-85043236050"
           }
         ]
       },
       {
         "@type": "CreativeWork",
         "@id": "https://doi.org/10.1016/j.gca.2017.09.030",
         "name": "Substitution and diffusion of Cr2+and Cr3+in synthetic forsterite and natural olivine at 1200\u20131500\u202f\u00b0C and 1\u202fbar",
         "identifier": [
           {
             "@type": "PropertyValue",
             "propertyID": "eid",
             "value": "2-s2.0-85032583491"
           },
           {
             "@type": "PropertyValue",
             "propertyID": "doi",
             "value": "10.1016/j.gca.2017.09.030"
           }
         ]
       },
       {
         "@type": "CreativeWork",
         "name": "Vanadium, sulfur, and iron valences in melt inclusions as a window into magmatic processes: A case study at Nyamuragira volcano, Africa"
       },
       {
         "@type": "CreativeWork",
         "@id": "https://doi.org/10.1016/j.gca.2018.01.033",
         "name": "Vanadium, sulfur, and iron valences in melt inclusions as a window into magmatic processes: A case study at Nyamuragira volcano, Africa",
         "identifier": [
           {
             "@type": "PropertyValue",
             "propertyID": "eid",
             "value": "2-s2.0-85042299079"
           },
           {
             "@type": "PropertyValue",
             "propertyID": "doi",
             "value": "10.1016/j.gca.2018.01.033"
           }
         ]
       },
       {
         "@type": "CreativeWork",
         "@id": "https://doi.org/10.2138/am-2017-5822",
         "name": "Calibration of Fe XANES for high-precision determination of Fe oxidation state in glasses: Comparison of new and existing results obtained at different synchrotron radiation sources",
         "identifier": {
           "@type": "PropertyValue",
           "propertyID": "doi",
           "value": "10.2138/am-2017-5822"
         }
       },
       {
         "@type": "CreativeWork",
         "@id": "https://doi.org/10.1130/abs/2017am-305603",
         "name": "ARSENIC REMOVAL FROM HIGH SALINITY WASTEWATER THROUGH BARITE CO-PRECIPITATION",
         "identifier": {
           "@type": "PropertyValue",
           "propertyID": "doi",
           "value": "10.1130/abs/2017am-305603"
         }
       },
       {
         "@type": "CreativeWork",
         "name": "Calibration of Fe XANES for high-precision determination of Fe oxidation state in glasses: Comparison of new and existing results obtained at different synchrotron radiation sources"
       },
       {
         "@type": "CreativeWork",
         "name": "Characterisation of radionuclides in uranium mine tailings with synchrotron-based hard x-ray microprobe techniques"
       },
       {
         "@type": "CreativeWork",
         "name": "Evaluating zinc isotope fractionation under sulfate reducing conditions using a flow-through cell and in situ XAS analysis"
       },
       {
         "@type": "CreativeWork",
         "@id": "https://doi.org/10.1016/j.gca.2016.12.034",
         "name": "Evaluating zinc isotope fractionation under sulfate reducing conditions using a flow-through cell and in situ XAS analysis",
         "identifier": [
           {
             "@type": "PropertyValue",
             "propertyID": "doi",
             "value": "10.1016/j.gca.2016.12.034"
           },
           {
             "@type": "PropertyValue",
             "propertyID": "eid",
             "value": "2-s2.0-85010200837"
           }
         ]
       },
       {
         "@type": "CreativeWork",
         "name": "In situ measurement of ferric iron in lunar glass beads using Fe-XAS"
       },
       {
         "@type": "CreativeWork",
         "@id": "https://doi.org/10.1016/j.icarus.2016.12.029",
         "name": "In situ measurement of ferric iron in lunar glass beads using Fe-XAS",
         "identifier": [
           {
             "@type": "PropertyValue",
             "propertyID": "doi",
             "value": "10.1016/j.icarus.2016.12.029"
           },
           {
             "@type": "PropertyValue",
             "propertyID": "eid",
             "value": "2-s2.0-85007140096"
           }
         ]
       },
       {
         "@type": "CreativeWork",
         "name": "Intraplate mantle oxidation by volatile-rich silicic magmas"
       },
       {
         "@type": "CreativeWork",
         "@id": "https://doi.org/10.1016/j.lithos.2017.09.002",
         "name": "Intraplate mantle oxidation by volatile-rich silicic magmas",
         "identifier": [
           {
             "@type": "PropertyValue",
             "propertyID": "doi",
             "value": "10.1016/j.lithos.2017.09.002"
           },
           {
             "@type": "PropertyValue",
             "propertyID": "eid",
             "value": "2-s2.0-85042192283"
           }
         ]
       },
       {
         "@type": "CreativeWork",
         "@id": "https://doi.org/10.1021/acs.est.6b05891",
         "name": "Ion Diffusion Within Water Films in Unsaturated Porous Media",
         "identifier": [
           {
             "@type": "PropertyValue",
             "propertyID": "doi",
             "value": "10.1021/acs.est.6b05891"
           },
           {
             "@type": "PropertyValue",
             "propertyID": "eid",
             "value": "2-s2.0-85020033506"
           }
         ]
       },
       {
         "@type": "CreativeWork",
         "name": "Ion diffusion within water films in unsaturated porous media"
       },
       {
         "@type": "CreativeWork",
         "name": "Preliminary Calibration for Accurate Predictions of Microscale Oxygen Barometry in Silicate Glasses Using Vanadium X-Ray Absorption Spectroscopy: A Multivariate Approach"
       },
       {
         "@type": "CreativeWork",
         "name": "Quantifying and correcting the effects of anisotropy in XANES measurements of chromium valence in olivine: Implications for a new olivine oxybarometer"
       },
       {
         "@type": "CreativeWork",
         "@id": "https://doi.org/10.2138/am-2017-5911",
         "name": "Quantifying and correcting the effects of anisotropy in XANES measurements of chromium valence in olivine: Implications for a new olivine oxybarometer",
         "identifier": [
           {
             "@type": "PropertyValue",
             "propertyID": "eid",
             "value": "2-s2.0-85020691579"
           },
           {
             "@type": "PropertyValue",
             "propertyID": "doi",
             "value": "10.2138/am-2017-5911"
           }
         ]
       },
       {
         "@type": "CreativeWork",
         "name": "Rapid reduction of MORB glass in piston cylinder experiments with graphite capsule-a XANES study"
       },
       {
         "@type": "CreativeWork",
         "name": "Shock-transformation of whitlockite to merrillite and the implications for meteoritic phosphate"
       },
       {
         "@type": "CreativeWork",
         "@id": "https://doi.org/10.1038/ncomms14667",
         "name": "Shock-transformation of whitlockite to merrillite and the implications for meteoritic phosphate",
         "identifier": [
           {
             "@type": "PropertyValue",
             "propertyID": "eid",
             "value": "2-s2.0-85014605259"
           },
           {
             "@type": "PropertyValue",
             "propertyID": "doi",
             "value": "10.1038/ncomms14667"
           }
         ]
       },
       {
         "@type": "CreativeWork",
         "name": "Spatially resolved elemental analysis, spectroscopy and diffraction at the GSECARS sector at the advanced photon source"
       },
       {
         "@type": "CreativeWork",
         "@id": "https://doi.org/10.2134/jeq2016.10.0401",
         "name": "Spatially resolved elemental analysis, spectroscopy and diffraction at the gsecars sector at the advanced photon source",
         "identifier": [
           {
             "@type": "PropertyValue",
             "propertyID": "eid",
             "value": "2-s2.0-85034231514"
           },
           {
             "@type": "PropertyValue",
             "propertyID": "doi",
             "value": "10.2134/jeq2016.10.0401"
           }
         ]
       },
       {
         "@type": "CreativeWork",
         "name": "Subretinal pigment epithelial deposition of drusen components including hydroxyapatite in a primary cell culture model"
       },
       {
         "@type": "CreativeWork",
         "@id": "https://doi.org/10.1167/iovs.16-21060",
         "name": "Subretinal pigment epithelial deposition of drusen components including hydroxyapatite in a primary cell culture model",
         "identifier": [
           {
             "@type": "PropertyValue",
             "propertyID": "doi",
             "value": "10.1167/iovs.16-21060"
           },
           {
             "@type": "PropertyValue",
             "propertyID": "eid",
             "value": "2-s2.0-85011564530"
           }
         ]
       },
       {
         "@type": "CreativeWork",
         "name": "The bulk valence state of Fe and the origin of water in chondrites"
       },
       {
         "@type": "CreativeWork",
         "@id": "https://doi.org/10.1016/j.gca.2017.05.021",
         "name": "The bulk valence state of Fe and the origin of water in chondrites",
         "identifier": [
           {
             "@type": "PropertyValue",
             "propertyID": "doi",
             "value": "10.1016/j.gca.2017.05.021"
           },
           {
             "@type": "PropertyValue",
             "propertyID": "eid",
             "value": "2-s2.0-85019967749"
           }
         ]
       },
       {
         "@type": "CreativeWork",
         "name": "3D-Mapping of Fayalite Oxidation Using Synchrotron: Implications for Volatiles Evolution During Planetary Crust Formation"
       },
       {
         "@type": "CreativeWork",
         "name": "A primary retinal pigment epithelial (RPE) cell culture model produces lipid-and hydroxyapatite-rich extracellular deposits characteristic of early stage age-related macular degeneration"
       },
       {
         "@type": "CreativeWork",
         "name": "Accurate predictions of iron redox state in silicate glasses: A multivariate approach using X-ray absorption spectroscopy"
       },
       {
         "@type": "CreativeWork",
         "@id": "https://doi.org/10.2138/am-2016-5555",
         "name": "Accurate predictions of iron redox state in silicate glasses: A multivariate approach using X-ray absorption spectroscopy",
         "identifier": [
           {
             "@type": "PropertyValue",
             "propertyID": "doi",
             "value": "10.2138/am-2016-5555"
           },
           {
             "@type": "PropertyValue",
             "propertyID": "eid",
             "value": "2-s2.0-84962521594"
           }
         ]
       },
       {
         "@type": "CreativeWork",
         "@id": "https://doi.org/10.1130/abs/2016am-279019",
         "name": "HIGH ENERGY SYNCHROTRON X-RAY MICROSPECTROSCOPY FOR GEOCHEMICAL CHARACTERIZATION OF TERRESTRIAL AND EXTRATERRESTRIAL SAMPLES",
         "identifier": {
           "@type": "PropertyValue",
           "propertyID": "doi",
           "value": "10.1130/abs/2016am-279019"
         }
       },
       {
         "@type": "CreativeWork",
         "name": "High-speed, coupled micro-beam XRD/XRF/XAFS mapping at GSECARS: APS beamline 13-ID-E"
       },
       {
         "@type": "CreativeWork",
         "@id": "https://doi.org/10.1130/abs/2016am-284822",
         "name": "IN SITU MEASUREMENT OF FERRIC IRON IN LUNAR GLASS BEADS USING FE-XAS",
         "identifier": {
           "@type": "PropertyValue",
           "propertyID": "doi",
           "value": "10.1130/abs/2016am-284822"
         }
       },
       {
         "@type": "CreativeWork",
         "@id": "https://doi.org/10.1130/abs/2016am-285623",
         "name": "INVESTIGATIONS INTO THE DEGASSING OF NYAMURAGIRA VOLCANO (D.R. CONGO, AFRICA) THROUGH SYNCHROTRON MICRO-XANES ANALYSIS",
         "identifier": {
           "@type": "PropertyValue",
           "propertyID": "doi",
           "value": "10.1130/abs/2016am-285623"
         }
       },
       {
         "@type": "CreativeWork",
         "name": "Ion Diffusion Through Water Films in Unsaturated Sands"
       },
       {
         "@type": "CreativeWork",
         "name": "Neurotoxins during the Renaissance. Bioarcheology of Ferrante II of Aragon (1469--1496) and Isabella of Aragon (1470--1524)"
       },
       {
         "@type": "CreativeWork",
         "@id": "https://doi.org/10.1016/j.jasrep.2016.01.013",
         "name": "Neurotoxins during the Renaissance. Bioarcheology of Ferrante II of Aragon (1469-1496) and Isabella of Aragon (1470-1524)",
         "identifier": [
           {
             "@type": "PropertyValue",
             "propertyID": "doi",
             "value": "10.1016/j.jasrep.2016.01.013"
           },
           {
             "@type": "PropertyValue",
             "propertyID": "eid",
             "value": "2-s2.0-84955247177"
           }
         ]
       },
       {
         "@type": "CreativeWork",
         "name": "Rethinking Categories within the Qualitative Dimension. Commentary on Heidegger\u2019s Duns Scotus\u2019 Theory of Categories and of Meaning"
       },
       {
         "@type": "CreativeWork",
         "name": "Structural environment of iron and accurate determination of Fe3+/$\u03a3$Fe ratios in andesitic glasses by XANES and M\u00f6ssbauer spectroscopy"
       },
       {
         "@type": "CreativeWork",
         "@id": "https://doi.org/10.1016/j.chemgeo.2016.02.022",
         "name": "Structural environment of iron and accurate determination of Fe3+/\u03c3Fe ratios in andesitic glasses by XANES and M\u00f6ssbauer spectroscopy",
         "identifier": [
           {
             "@type": "PropertyValue",
             "propertyID": "eid",
             "value": "2-s2.0-84959913032"
           },
           {
             "@type": "PropertyValue",
             "propertyID": "doi",
             "value": "10.1016/j.chemgeo.2016.02.022"
           }
         ]
       },
       {
         "@type": "CreativeWork",
         "name": "Structure and thermodynamic stability of UTa 3 O 10, a U (v)-bearing compound"
       },
       {
         "@type": "CreativeWork",
         "@id": "https://doi.org/10.1039/c6dt02843h",
         "name": "Structure and thermodynamic stability of UTa<inf>3</inf>O<inf>10</inf>, a U(v)-bearing compound",
         "identifier": [
           {
             "@type": "PropertyValue",
             "propertyID": "doi",
             "value": "10.1039/c6dt02843h"
           },
           {
             "@type": "PropertyValue",
             "propertyID": "eid",
             "value": "2-s2.0-85000538635"
           }
         ]
       },
       {
         "@type": "CreativeWork",
         "name": "Structure and thermodynamics of uranium-containing iron garnets"
       },
       {
         "@type": "CreativeWork",
         "@id": "https://doi.org/10.1016/j.gca.2016.05.043",
         "name": "Structure and thermodynamics of uranium-containing iron garnets",
         "identifier": [
           {
             "@type": "PropertyValue",
             "propertyID": "doi",
             "value": "10.1016/j.gca.2016.05.043"
           },
           {
             "@type": "PropertyValue",
             "propertyID": "eid",
             "value": "2-s2.0-84976427865"
           }
         ]
       },
       {
         "@type": "CreativeWork",
         "name": "Synchrotron X-Ray Fluorescence Analysis of Trace Elements in Focused Ion Beam Prepared Sections of Carbonaceous Chondrite Iron Sulfides (CM and CR) and Associated Metal (CR)"
       },
       {
         "@type": "CreativeWork",
         "name": "Synchrotron X-ray fluorescence spectroscopy of salts in natural sea ice"
       },
       {
         "@type": "CreativeWork",
         "@id": "https://doi.org/10.1002/2016ea000172",
         "name": "Synchrotron X-ray fluorescence spectroscopy of salts in natural sea ice",
         "identifier": [
           {
             "@type": "PropertyValue",
             "propertyID": "doi",
             "value": "10.1002/2016ea000172"
           },
           {
             "@type": "PropertyValue",
             "propertyID": "eid",
             "value": "2-s2.0-85014991407"
           }
         ]
       },
       {
         "@type": "CreativeWork",
         "name": "U (V) in metal uranates: a combined experimental and theoretical study of MgUO 4, CrUO 4, and FeUO 4"
       },
       {
         "@type": "CreativeWork",
         "@id": "https://doi.org/10.1039/c6dt00066e",
         "name": "U(v) in metal uranates: A combined experimental and theoretical study of MgUO<inf>4</inf>, CrUO<inf>4</inf>, and FeUO<inf>4</inf>",
         "identifier": [
           {
             "@type": "PropertyValue",
             "propertyID": "doi",
             "value": "10.1039/c6dt00066e"
           },
           {
             "@type": "PropertyValue",
             "propertyID": "eid",
             "value": "2-s2.0-84960357588"
           }
         ]
       },
       {
         "@type": "CreativeWork",
         "name": "Use of multivariate analysis for synchrotron micro-XANES analysis of iron valence state in amphiboles"
       },
       {
         "@type": "CreativeWork",
         "@id": "https://doi.org/10.2138/am-2016-5556",
         "name": "Use of multivariate analysis for synchrotron micro-XANES analysis of iron valence state in amphiboles",
         "identifier": [
           {
             "@type": "PropertyValue",
             "propertyID": "eid",
             "value": "2-s2.0-84975282701"
           },
           {
             "@type": "PropertyValue",
             "propertyID": "doi",
             "value": "10.2138/am-2016-5556"
           }
         ]
       },
       {
         "@type": "CreativeWork",
         "name": "Charge-Coupled Substituted Garnets (Y3--x Ca0. 5 x M0. 5 x) Fe5O12 (M= Ce, Th): Structure and Stability as Crystalline Nuclear Waste Forms"
       },
       {
         "@type": "CreativeWork",
         "@id": "https://doi.org/10.1021/acs.inorgchem.5b00444",
         "name": "Charge-coupled substituted garnets (Y<inf>3-x</inf>Ca<inf>0.5x</inf>M<inf>0.5x</inf>)Fe<inf>5</inf>O<inf>12</inf> (M = Ce, Th): Structure and stability as crystalline nuclear waste forms",
         "identifier": [
           {
             "@type": "PropertyValue",
             "propertyID": "doi",
             "value": "10.1021/acs.inorgchem.5b00444"
           },
           {
             "@type": "PropertyValue",
             "propertyID": "eid",
             "value": "2-s2.0-84928343415"
           }
         ]
       },
       {
         "@type": "CreativeWork",
         "name": "Context as a Structure of Emergence: An Inquiry from a Phenomenological Point of View."
       },
       {
         "@type": "CreativeWork",
         "@id": "https://doi.org/10.1073/pnas.1511664112",
         "name": "Correction: Identification of hydroxyapatite spherules provides new insight into subretinal pigment epithelial deposit formation in the aging eye (Proceedings of the National Academy of Sciences of the United States of America (2015) 112, 5, (1565-1570) DOI: 10.1073/pnas.1413347112)",
         "identifier": [
           {
             "@type": "PropertyValue",
             "propertyID": "doi",
             "value": "10.1073/pnas.1511664112"
           },
           {
             "@type": "PropertyValue",
             "propertyID": "eid",
             "value": "2-s2.0-84937714210"
           }
         ]
       },
       {
         "@type": "CreativeWork",
         "name": "Elemental Composition of Primitive Anhydrous IDPs"
       },
       {
         "@type": "CreativeWork",
         "name": "Evaluating the cement stabilization of arsenic-bearing iron wastes from drinking water treatment"
       },
       {
         "@type": "CreativeWork",
         "@id": "https://doi.org/10.1016/j.jhazmat.2015.07.051",
         "name": "Evaluating the cement stabilization of arsenic-bearing iron wastes from drinking water treatment",
         "identifier": [
           {
             "@type": "PropertyValue",
             "propertyID": "doi",
             "value": "10.1016/j.jhazmat.2015.07.051"
           },
           {
             "@type": "PropertyValue",
             "propertyID": "eid",
             "value": "2-s2.0-84952007909"
           }
         ]
       },
       {
         "@type": "CreativeWork",
         "name": "Evidence for Metal Anions in Silicate Melts: Implications for Pt Partitioning, Nanonuggets and Core Formation"
       },
       {
         "@type": "CreativeWork",
         "@id": "https://doi.org/10.1364/oe.23.009014",
         "name": "Hyperspectral image reconstruction for X-ray fluorescence tomography",
         "identifier": [
           {
             "@type": "PropertyValue",
             "propertyID": "eid",
             "value": "2-s2.0-84928041617"
           },
           {
             "@type": "PropertyValue",
             "propertyID": "doi",
             "value": "10.1364/oe.23.009014"
           }
         ]
       },
       {
         "@type": "CreativeWork",
         "name": "Hyperspectral image reconstruction for x-ray fluorescence tomography"
       },
       {
         "@type": "CreativeWork",
         "name": "Identification of hydroxyapatite spherules provides new insight into subretinal pigment epithelial deposit formation in the aging eye"
       },
       {
         "@type": "CreativeWork",
         "@id": "https://doi.org/10.1073/pnas.1413347112",
         "name": "Identification of hydroxyapatite spherules provides new insight into subretinal pigment epithelial deposit formation in the aging eye",
         "identifier": [
           {
             "@type": "PropertyValue",
             "propertyID": "eid",
             "value": "2-s2.0-84922263543"
           },
           {
             "@type": "PropertyValue",
             "propertyID": "doi",
             "value": "10.1073/pnas.1413347112"
           }
         ]
       },
       {
         "@type": "CreativeWork",
         "name": "In situ Measurement of Ferric Iron in Luna Glasses Using Fe-XAS: Implications for Lunar Eruption Mechanisms"
       },
       {
         "@type": "CreativeWork",
         "name": "Preliminary calibration for measuring ferric iron in silicate glasses: a M\u00f6ssbauer and X-ray absorption spectroscopy study"
       },
       {
         "@type": "CreativeWork",
         "name": "Redox evolution of silicic magmas: Insights from XANES measurements of Ce valence in Bishop Tuff zircons"
       },
       {
         "@type": "CreativeWork",
         "@id": "https://doi.org/10.1016/j.chemgeo.2015.02.033",
         "name": "Redox evolution of silicic magmas: Insights from XANES measurements of Ce valence in Bishop Tuff zircons",
         "identifier": [
           {
             "@type": "PropertyValue",
             "propertyID": "doi",
             "value": "10.1016/j.chemgeo.2015.02.033"
           },
           {
             "@type": "PropertyValue",
             "propertyID": "eid",
             "value": "2-s2.0-84938513886"
           }
         ]
       },
       {
         "@type": "CreativeWork",
         "@id": "https://doi.org/10.1021/acs.est.5b01147",
         "name": "Speciation Matters: Bioavailability of Silver and Silver Sulfide Nanoparticles to Alfalfa (Medicago sativa)",
         "identifier": [
           {
             "@type": "PropertyValue",
             "propertyID": "doi",
             "value": "10.1021/acs.est.5b01147"
           },
           {
             "@type": "PropertyValue",
             "propertyID": "eid",
             "value": "2-s2.0-84937458558"
           }
         ]
       },
       {
         "@type": "CreativeWork",
         "name": "Speciation matters: Bioavailability of silver and silver sulfide nanoparticles to alfalfa (Medicago sativa)"
       },
       {
         "@type": "CreativeWork",
         "name": "Spectroscopic evidence of uranium immobilization in acidic wetlands by natural organic matter and plant roots"
       },
       {
         "@type": "CreativeWork",
         "@id": "https://doi.org/10.1021/es505369g",
         "name": "Spectroscopic evidence of uranium immobilization in acidic wetlands by natural organic matter and plant roots",
         "identifier": [
           {
             "@type": "PropertyValue",
             "propertyID": "eid",
             "value": "2-s2.0-84924056262"
           },
           {
             "@type": "PropertyValue",
             "propertyID": "doi",
             "value": "10.1021/es505369g"
           }
         ]
       },
       {
         "@type": "CreativeWork",
         "name": "The effect of ore roasting on arsenic oxidation state and solid phase speciation in gold mine tailings"
       },
       {
         "@type": "CreativeWork",
         "@id": "https://doi.org/10.1144/geochem2013-238",
         "name": "The effect of ore roasting on arsenic oxidation state and solid phase speciation in gold mine tailings",
         "identifier": [
           {
             "@type": "PropertyValue",
             "propertyID": "doi",
             "value": "10.1144/geochem2013-238"
           },
           {
             "@type": "PropertyValue",
             "propertyID": "eid",
             "value": "2-s2.0-84947422878"
           }
         ]
       },
       {
         "@type": "CreativeWork",
         "name": "A novel mechanism for initiation of sub-RPE deposits"
       },
       {
         "@type": "CreativeWork",
         "name": "Application of hard X-ray microprobe methods to clay-rich materials"
       },
       {
         "@type": "CreativeWork",
         "name": "Assessing heavy metal exposure in Renaissance Europe using synchrotron microbeam techniques"
       },
       {
         "@type": "CreativeWork",
         "@id": "https://doi.org/10.1016/j.jas.2014.08.019",
         "name": "Assessing heavy metal exposure in Renaissance Europe using synchrotron microbeam techniques",
         "identifier": [
           {
             "@type": "PropertyValue",
             "propertyID": "eid",
             "value": "2-s2.0-84907189594"
           },
           {
             "@type": "PropertyValue",
             "propertyID": "doi",
             "value": "10.1016/j.jas.2014.08.019"
           }
         ]
       },
       {
         "@type": "CreativeWork",
         "@id": "https://doi.org/10.1021/cm403444f",
         "name": "Cerium substitution in yttrium iron garnet: Valence state, structure, and energetics",
         "identifier": [
           {
             "@type": "PropertyValue",
             "propertyID": "eid",
             "value": "2-s2.0-84893453774"
           },
           {
             "@type": "PropertyValue",
             "propertyID": "doi",
             "value": "10.1021/cm403444f"
           }
         ]
       },
       {
         "@type": "CreativeWork",
         "name": "Cerium substitution in yttrium iron garnet: valence state, structure, and energetics"
       },
       {
         "@type": "CreativeWork",
         "name": "Cu solubility and complexation in high-temperature aqueous fluids"
       },
       {
         "@type": "CreativeWork",
         "name": "Deciphering Earth History: Mapping the Micron-Scale Spatial Distribution and Speciation of Sulfur in Ordovician Carbonates"
       },
       {
         "@type": "CreativeWork",
         "name": "Fe3+ partitioning during basalt differentiation on Mars: insights into the oxygen fugacity of the shergottite mantle source (s)."
       },
       {
         "@type": "CreativeWork",
         "name": "Possible Identification of Surviving Interplanetary Dust Particles in a Mars Regolith Breccia"
       },
       {
         "@type": "CreativeWork",
         "name": "Retention and chemical speciation of uranium in an oxidized wetland sediment from the Savannah River Site"
       },
       {
         "@type": "CreativeWork",
         "@id": "https://doi.org/10.1016/j.jenvrad.2013.10.017",
         "name": "Retention and chemical speciation of uranium in an oxidized wetland sediment from the Savannah River Site",
         "identifier": [
           {
             "@type": "PropertyValue",
             "propertyID": "eid",
             "value": "2-s2.0-84896730621"
           },
           {
             "@type": "PropertyValue",
             "propertyID": "doi",
             "value": "10.1016/j.jenvrad.2013.10.017"
           }
         ]
       },
       {
         "@type": "CreativeWork",
         "name": "Scientific data exchange: a schema for HDF5-based storage of raw and analyzed data"
       },
       {
         "@type": "CreativeWork",
         "name": "Variation in XANES in biotite as a function of orientation, crystal composition, and metamorphic history"
       },
       {
         "@type": "CreativeWork",
         "@id": "https://doi.org/10.1515/am.2014.4222",
         "name": "Variation in XANES in biotite as a function of orientation, crystal composition, and metamorphic history",
         "identifier": [
           {
             "@type": "PropertyValue",
             "propertyID": "doi",
             "value": "10.1515/am.2014.4222"
           },
           {
             "@type": "PropertyValue",
             "propertyID": "eid",
             "value": "2-s2.0-84894568571"
           }
         ]
       },
       {
         "@type": "CreativeWork",
         "name": "Abiotic reductive immobilization of U (VI) by biogenic mackinawite"
       },
       {
         "@type": "CreativeWork",
         "@id": "https://doi.org/10.1021/es304025x",
         "name": "Abiotic reductive immobilization of U(VI) by biogenic mackinawite",
         "identifier": [
           {
             "@type": "PropertyValue",
             "propertyID": "doi",
             "value": "10.1021/es304025x"
           },
           {
             "@type": "PropertyValue",
             "propertyID": "eid",
             "value": "2-s2.0-84874632224"
           }
         ]
       },
       {
         "@type": "CreativeWork",
         "name": "Cu and Ni solubility in high-temperature aqueous fluids"
       },
       {
         "@type": "CreativeWork",
         "name": "Focus on Synchrotron Education Initiatives"
       },
       {
         "@type": "CreativeWork",
         "@id": "https://doi.org/10.1080/08940886.2013.753768",
         "name": "Focus on Synchrotron Education Initiatives",
         "identifier": [
           {
             "@type": "PropertyValue",
             "propertyID": "eid",
             "value": "2-s2.0-84873717077"
           },
           {
             "@type": "PropertyValue",
             "propertyID": "doi",
             "value": "10.1080/08940886.2013.753768"
           }
         ]
       },
       {
         "@type": "CreativeWork",
         "name": "Heavy metal distribution in an urban wetland impacted by combined sewer overflow"
       },
       {
         "@type": "CreativeWork",
         "@id": "https://doi.org/10.1016/j.chemosphere.2013.07.077",
         "name": "Heavy metal distribution in an urban wetland impacted by combined sewer overflow",
         "identifier": [
           {
             "@type": "PropertyValue",
             "propertyID": "doi",
             "value": "10.1016/j.chemosphere.2013.07.077"
           },
           {
             "@type": "PropertyValue",
             "propertyID": "eid",
             "value": "2-s2.0-84886420025"
           }
         ]
       },
       {
         "@type": "CreativeWork",
         "name": "In situ crystal chemical study of solid diamond inclusions from Quaternary alluvial deposit in the Siberian craton"
       },
       {
         "@type": "CreativeWork",
         "name": "New Developments and Geoscience Applications of Synchrotron Computed Microtomography"
       },
       {
         "@type": "CreativeWork",
         "name": "Oxidation of added Mn (II) in soils observed by XANES spectroscopy and Cr (III) oxidation"
       },
       {
         "@type": "CreativeWork",
         "@id": "https://doi.org/10.2136/sssaj2013.04.0151",
         "name": "Oxidation of added mn(2) in soils observed by xanes spectroscopy and cr(3) oxidation",
         "identifier": [
           {
             "@type": "PropertyValue",
             "propertyID": "doi",
             "value": "10.2136/sssaj2013.04.0151"
           },
           {
             "@type": "PropertyValue",
             "propertyID": "eid",
             "value": "2-s2.0-84891939238"
           }
         ]
       },
       {
         "@type": "CreativeWork",
         "name": "Redox systematics of martian magmas with implications for magnetite stability"
       },
       {
         "@type": "CreativeWork",
         "@id": "https://doi.org/10.2138/am.2013.4251",
         "name": "Redox systematics of martian magmas with implications for magnetite stability",
         "identifier": [
           {
             "@type": "PropertyValue",
             "propertyID": "doi",
             "value": "10.2138/am.2013.4251"
           },
           {
             "@type": "PropertyValue",
             "propertyID": "eid",
             "value": "2-s2.0-84875753533"
           }
         ]
       },
       {
         "@type": "CreativeWork",
         "name": "Sixteenth Century clinical neurology; heavy metal toxicity and biologic rhythms"
       },
       {
         "@type": "CreativeWork",
         "@id": "https://doi.org/10.1080/08940886.2013.771072",
         "name": "Trends in X-ray Fluorescence Microscopy",
         "identifier": [
           {
             "@type": "PropertyValue",
             "propertyID": "eid",
             "value": "2-s2.0-84875837713"
           },
           {
             "@type": "PropertyValue",
             "propertyID": "doi",
             "value": "10.1080/08940886.2013.771072"
           }
         ]
       },
       {
         "@type": "CreativeWork",
         "name": "Trends in X-ray fluorescence microscopy"
       },
       {
         "@type": "CreativeWork",
         "name": "Update to New Homogeneous Standards by Atomic Layer Deposition for Synchrotron X-Ray Fluorescence and Absorption Spectroscopies"
       },
       {
         "@type": "CreativeWork",
         "name": "Using the NSLS for Introducing Synchrotrons into the Classroom (InSynC)"
       },
       {
         "@type": "CreativeWork",
         "@id": "https://doi.org/10.1080/08940886.2013.753786",
         "name": "Using the NSLS for Introducing Synchrotrons into the Classroom (InSynC)",
         "identifier": [
           {
             "@type": "PropertyValue",
             "propertyID": "doi",
             "value": "10.1080/08940886.2013.753786"
           },
           {
             "@type": "PropertyValue",
             "propertyID": "eid",
             "value": "2-s2.0-84873741199"
           }
         ]
       },
       {
         "@type": "CreativeWork",
         "name": "Accurate determination of ferric iron in garnets by bulk M\u00f6ssbauer spectroscopy and synchrotron micro-XANES"
       },
       {
         "@type": "CreativeWork",
         "@id": "https://doi.org/10.2138/am.2012.4107",
         "name": "Accurate determination of ferric iron in garnets by bulk M\u00f6ssbauer spectroscopy and synchrotron micro-XANES",
         "identifier": [
           {
             "@type": "PropertyValue",
             "propertyID": "doi",
             "value": "10.2138/am.2012.4107"
           },
           {
             "@type": "PropertyValue",
             "propertyID": "eid",
             "value": "2-s2.0-84867377984"
           }
         ]
       },
       {
         "@type": "CreativeWork",
         "name": "Fe-METAL IN A LARGE CHONDRITIC CLUSTER IDP"
       },
       {
         "@type": "CreativeWork",
         "name": "Fe-Metal in a Large Cluster IDP"
       },
       {
         "@type": "CreativeWork",
         "name": "Five hundred years of mercury exposure and adaptation"
       },
       {
         "@type": "CreativeWork",
         "@id": "https://doi.org/10.1155/2012/472858",
         "name": "Five hundred years of mercury exposure and adaptation",
         "identifier": [
           {
             "@type": "PropertyValue",
             "propertyID": "doi",
             "value": "10.1155/2012/472858"
           },
           {
             "@type": "PropertyValue",
             "propertyID": "eid",
             "value": "2-s2.0-84864925278"
           }
         ]
       },
       {
         "@type": "CreativeWork",
         "@id": "https://doi.org/10.1039/c2mt20168b",
         "name": "Getting to the core of platinum drug bio-distributions: The penetration of anti-cancer platinum complexes into spheroid tumour models",
         "identifier": [
           {
             "@type": "PropertyValue",
             "propertyID": "eid",
             "value": "2-s2.0-84867869074"
           },
           {
             "@type": "PropertyValue",
             "propertyID": "doi",
             "value": "10.1039/c2mt20168b"
           }
         ]
       },
       {
         "@type": "CreativeWork",
         "name": "Getting to the core of platinum drug bio-distributions: the penetration of anti-cancer platinum complexes into spheroid tumour models"
       },
       {
         "@type": "CreativeWork",
         "name": "In situ distribution of metallic platinum in tumor tissues after intraperitoneal platinum chemotherapy assessed by digital synchrotron-abetted x-ray fluorescence microscopy."
       },
       {
         "@type": "CreativeWork",
         "name": "New Homogeneous Standards by Atomic Layer Deposition for Synchrotron X-ray Fluorescence and Absorption Spectroscopies."
       },
       {
         "@type": "CreativeWork",
         "name": "Redox History of Early Solar System Planetismals Recorded in the D; Orbigny Angrite"
       },
       {
         "@type": "CreativeWork",
         "name": "Redox History of Early Solar System Planetismals Recorded in the D; Orbigny Angrite"
       },
       {
         "@type": "CreativeWork",
         "@id": "https://doi.org/10.1021/cm3005375",
         "name": "Scanning X-ray fluorescence imaging study of lithium insertion into copper based oxysulfides for Li-Ion batteries",
         "identifier": [
           {
             "@type": "PropertyValue",
             "propertyID": "doi",
             "value": "10.1021/cm3005375"
           },
           {
             "@type": "PropertyValue",
             "propertyID": "eid",
             "value": "2-s2.0-84864353606"
           }
         ]
       },
       {
         "@type": "CreativeWork",
         "name": "Scanning X-ray fluorescence imaging study of lithium insertion into copper based oxysulfides for Li-ion batteries"
       },
       {
         "@type": "CreativeWork",
         "name": "The role of CAX1 and CAX3 in elemental distribution and abundance in Arabidopsis seed"
       },
       {
         "@type": "CreativeWork",
         "@id": "https://doi.org/10.1104/pp.111.184812",
         "name": "The role of CAX1 and CAX3 in elemental distribution and abundance in Arabidopsis seed",
         "identifier": [
           {
             "@type": "PropertyValue",
             "propertyID": "eid",
             "value": "2-s2.0-84855293822"
           },
           {
             "@type": "PropertyValue",
             "propertyID": "doi",
             "value": "10.1104/pp.111.184812"
           }
         ]
       },
       {
         "@type": "CreativeWork",
         "name": "Thickness measurements of nanoscale brine films on silica surfaces under geologic CO2sequestration conditions using synchrotron X-ray fluorescence"
       },
       {
         "@type": "CreativeWork",
         "@id": "https://doi.org/10.1029/2012wr012200",
         "name": "Thickness measurements of nanoscale brine films on silica surfaces under geologic CO<inf>2</inf> sequestration conditions using synchrotron X-ray fluorescence",
         "identifier": [
           {
             "@type": "PropertyValue",
             "propertyID": "eid",
             "value": "2-s2.0-84867210907"
           },
           {
             "@type": "PropertyValue",
             "propertyID": "doi",
             "value": "10.1029/2012wr012200"
           }
         ]
       },
       {
         "@type": "CreativeWork",
         "name": "Thicknesses of Nanoscale Brine Films on Mineral Surfaces Under Geologic CO2 Sequestration Conditions Measured with Synchrotron X-ray Fluorescence"
       },
       {
         "@type": "CreativeWork",
         "name": "Titanium and iron in lung of a soldier with nonspecific interstitial pneumonitis and bronchiolitis after returning from Iraq"
       },
       {
         "@type": "CreativeWork",
         "@id": "https://doi.org/10.1097/jom.0b013e31824327ca",
         "name": "Titanium and iron in lung of a soldier with nonspecific interstitial pneumonitis and bronchiolitis after returning from Iraq",
         "identifier": [
           {
             "@type": "PropertyValue",
             "propertyID": "eid",
             "value": "2-s2.0-84855798953"
           },
           {
             "@type": "PropertyValue",
             "propertyID": "doi",
             "value": "10.1097/jom.0b013e31824327ca"
           }
         ]
       },
       {
         "@type": "CreativeWork",
         "name": "Unusual Iron Redox Systematics of Martian Magmas"
       },
       {
         "@type": "CreativeWork",
         "name": "Biologic Rhythms in Ancient Hair"
       },
       {
         "@type": "CreativeWork",
         "name": "Biologic rhythms derived from Siberian Mammoths' Hairs"
       },
       {
         "@type": "CreativeWork",
         "@id": "https://doi.org/10.1371/journal.pone.0021705",
         "name": "Biologic rhythms derived from Siberian Mammoths' Hairs",
         "identifier": [
           {
             "@type": "PropertyValue",
             "propertyID": "eid",
             "value": "2-s2.0-79959634757"
           },
           {
             "@type": "PropertyValue",
             "propertyID": "doi",
             "value": "10.1371/journal.pone.0021705"
           }
         ]
       },
       {
         "@type": "CreativeWork",
         "name": "Brine Films Thickness on Silica Surfaces Under High Pressure Geologic CO2 Sequestration Conditions with Synchrotron X-ray Fluorescence"
       },
       {
         "@type": "CreativeWork",
         "@id": "https://doi.org/10.2138/am.2011.3800",
         "name": "Differences in Fe-redox for asbestiform and nonasbestiform amphiboles from the former vermiculite mine, near Libby, Montana, U.S.A.",
         "identifier": [
           {
             "@type": "PropertyValue",
             "propertyID": "eid",
             "value": "2-s2.0-80053242390"
           },
           {
             "@type": "PropertyValue",
             "propertyID": "doi",
             "value": "10.2138/am.2011.3800"
           }
         ]
       },
       {
         "@type": "CreativeWork",
         "name": "Differences in Fe-redox for asbestiform and nonasbestiform amphiboles from the former vermiculite mine, near Libby, Montana, USA"
       },
       {
         "@type": "CreativeWork",
         "name": "Direct characterization of airborne particles associated with arsenic-rich mine tailings: Particle size, mineralogy and texture"
       },
       {
         "@type": "CreativeWork",
         "@id": "https://doi.org/10.1016/j.apgeochem.2011.04.021",
         "name": "Direct characterization of airborne particles associated with arsenic-rich mine tailings: Particle size, mineralogy and texture",
         "identifier": [
           {
             "@type": "PropertyValue",
             "propertyID": "eid",
             "value": "2-s2.0-80051947751"
           },
           {
             "@type": "PropertyValue",
             "propertyID": "doi",
             "value": "10.1016/j.apgeochem.2011.04.021"
           }
         ]
       },
       {
         "@type": "CreativeWork",
         "name": "Direct identification of metal compounds in contaminated soil, mine tailings, lake sediments and house dust using synchrotron-based microanalysis"
       },
       {
         "@type": "CreativeWork",
         "name": "Energy, Enthusiasm, Cooperation, and Commitment Characterize NUFO Annual Meeting"
       },
       {
         "@type": "CreativeWork",
         "@id": "https://doi.org/10.1080/08940886.2011.618091",
         "name": "Energy, enthusiasm, cooperation, and commitment characterize NUFO annual meeting",
         "identifier": [
           {
             "@type": "PropertyValue",
             "propertyID": "doi",
             "value": "10.1080/08940886.2011.618091"
           },
           {
             "@type": "PropertyValue",
             "propertyID": "eid",
             "value": "2-s2.0-80053445328"
           }
         ]
       },
       {
         "@type": "CreativeWork",
         "name": "Ex Situ and In Situ Scanning X-Ray Fluorescence Imaging Study of Lithium Insertion into Sr2MnO2Cu4-$\u03b4$S3 for Li-Ion Batteries"
       },
       {
         "@type": "CreativeWork",
         "name": "Fe-XANES Measurement of an Anhydrous Cluster IDP"
       },
       {
         "@type": "CreativeWork",
         "name": "Identification and characterization of arsenic and metal compounds in contaminated soil, mine tailings, and house dust using synchrotron-based microanalysis"
       },
       {
         "@type": "CreativeWork",
         "@id": "https://doi.org/10.1080/10807039.2011.618415",
         "name": "Identification and characterization of arsenic and metal compounds in contaminated soil, mine tailings, and house dust using synchrotron-based microanalysis",
         "identifier": [
           {
             "@type": "PropertyValue",
             "propertyID": "doi",
             "value": "10.1080/10807039.2011.618415"
           },
           {
             "@type": "PropertyValue",
             "propertyID": "eid",
             "value": "2-s2.0-84859456590"
           }
         ]
       },
       {
         "@type": "CreativeWork",
         "name": "Increased brain iron coincides with early plaque formation in a mouse model of Alzheimer's disease"
       },
       {
         "@type": "CreativeWork",
         "@id": "https://doi.org/10.1016/j.neuroimage.2010.11.073",
         "name": "Increased brain iron coincides with early plaque formation in a mouse model of Alzheimer's disease",
         "identifier": [
           {
             "@type": "PropertyValue",
             "propertyID": "doi",
             "value": "10.1016/j.neuroimage.2010.11.073"
           },
           {
             "@type": "PropertyValue",
             "propertyID": "eid",
             "value": "2-s2.0-78951481093"
           }
         ]
       },
       {
         "@type": "CreativeWork",
         "name": "Leishmaniasis in 15th century Italian nobles and mercury treatment"
       },
       {
         "@type": "CreativeWork",
         "name": "MULTIVARIATE ANALYSIS OF XANES SPECTRA FOR MEASUREMENT OF FERRIC IRON IN GARNETS, AMPHIBOLES, MICAS, AND GLASSES"
       },
       {
         "@type": "CreativeWork",
         "name": "Macroscopic and molecular-scale assessment of soil lead contamination impacted by seasonal dove hunting activities"
       },
       {
         "@type": "CreativeWork",
         "@id": "https://doi.org/10.1007/s11368-011-0374-z",
         "name": "Macroscopic and molecular-scale assessment of soil lead contamination impacted by seasonal dove hunting activities",
         "identifier": [
           {
             "@type": "PropertyValue",
             "propertyID": "doi",
             "value": "10.1007/s11368-011-0374-z"
           },
           {
             "@type": "PropertyValue",
             "propertyID": "eid",
             "value": "2-s2.0-84860405613"
           }
         ]
       },
       {
         "@type": "CreativeWork",
         "name": "Phloem transport of arsenic species from flag leaf to grain during grain filling"
       },
       {
         "@type": "CreativeWork",
         "@id": "https://doi.org/10.1111/j.1469-8137.2011.03789.x",
         "name": "Phloem transport of arsenic species from flag leaf to grain during grain filling",
         "identifier": [
           {
             "@type": "PropertyValue",
             "propertyID": "doi",
             "value": "10.1111/j.1469-8137.2011.03789.x"
           },
           {
             "@type": "PropertyValue",
             "propertyID": "eid",
             "value": "2-s2.0-80052385682"
           }
         ]
       },
       {
         "@type": "CreativeWork",
         "name": "Sulfides from Martian and Lunar Basalts: Comparative Chemistry for Ni, Co, Cu, and Se. Range of Point Analyses Per Sample"
       },
       {
         "@type": "CreativeWork",
         "name": "Sulfides from martian and lunar basalts: Comparative chemistry for Ni, Co, Cu, and Se"
       },
       {
         "@type": "CreativeWork",
         "@id": "https://doi.org/10.2138/am.2011.3724",
         "name": "Sulfides from martian and lunar basalts: Comparative chemistry for Ni, Co, Cu, and Se",
         "identifier": [
           {
             "@type": "PropertyValue",
             "propertyID": "eid",
             "value": "2-s2.0-79958256991"
           },
           {
             "@type": "PropertyValue",
             "propertyID": "doi",
             "value": "10.2138/am.2011.3724"
           }
         ]
       },
       {
         "@type": "CreativeWork",
         "name": "Sulfides from martian and lunar basalts: comparative chemistry for Ni, Co, Cu, and Se. Average Sample Analyses and WDS mapping of grains"
       },
       {
         "@type": "CreativeWork",
         "name": "Synchrotron micro-XANES analysis of Fe3+ in oriented amphiboles"
       },
       {
         "@type": "CreativeWork",
         "name": "Synchrotron micro-XANES analysis of Fe3+ in oriented amphiboles"
       },
       {
         "@type": "CreativeWork",
         "name": "The sub-micron resolution X-ray spectroscopy beamline at NSLS-II"
       },
       {
         "@type": "CreativeWork",
         "@id": "https://doi.org/10.1016/j.nima.2010.11.154",
         "name": "The sub-micron resolution X-ray spectroscopy beamline at NSLS-II",
         "identifier": [
           {
             "@type": "PropertyValue",
             "propertyID": "doi",
             "value": "10.1016/j.nima.2010.11.154"
           },
           {
             "@type": "PropertyValue",
             "propertyID": "eid",
             "value": "2-s2.0-79961170295"
           }
         ]
       },
       {
         "@type": "CreativeWork",
         "name": "Assessment and control of organic and other contaminants associated with the Stardust sample return from comet 81P/Wild 2"
       },
       {
         "@type": "CreativeWork",
         "@id": "https://doi.org/10.1111/j.1945-5100.2010.01031.x",
         "name": "Assessment and control of organic and other contaminants associated with the Stardust sample return from comet 81P/Wild 2",
         "identifier": [
           {
             "@type": "PropertyValue",
             "propertyID": "eid",
             "value": "2-s2.0-77954637404"
           },
           {
             "@type": "PropertyValue",
             "propertyID": "doi",
             "value": "10.1111/j.1945-5100.2010.01031.x"
           }
         ]
       },
       {
         "@type": "CreativeWork",
         "name": "Characterization of geosynthetic clay liner bentonite using micro-analytical methods"
       },
       {
         "@type": "CreativeWork",
         "@id": "https://doi.org/10.1016/j.apgeochem.2010.04.011",
         "name": "Characterization of geosynthetic clay liner bentonite using micro-analytical methods",
         "identifier": [
           {
             "@type": "PropertyValue",
             "propertyID": "doi",
             "value": "10.1016/j.apgeochem.2010.04.011"
           },
           {
             "@type": "PropertyValue",
             "propertyID": "eid",
             "value": "2-s2.0-77954864340"
           }
         ]
       },
       {
         "@type": "CreativeWork",
         "name": "DISTINGUISHING GEOGENIC FROM ANTHROPOGENIC PARTICLES IN DUST USING SYNCHROTRON MICROANALYSIS"
       },
       {
         "@type": "CreativeWork",
         "name": "GEOCHEMICAL CHARACTERIZATION OF BIOSIGNATURES IN SUBSEAFLOOR VOLCANIC GLASSES USING SYNCHROTRON-BASED TECHNIQUES"
       },
       {
         "@type": "CreativeWork",
         "@id": "https://doi.org/10.1016/j.jaad.2009.07.018",
         "name": "Gadolinium deposition in nephrogenic systemic fibrosis: An examination of tissue using synchrotron x-ray fluorescence spectroscopy",
         "identifier": [
           {
             "@type": "PropertyValue",
             "propertyID": "doi",
             "value": "10.1016/j.jaad.2009.07.018"
           },
           {
             "@type": "PropertyValue",
             "propertyID": "eid",
             "value": "2-s2.0-71649114117"
           }
         ]
       },
       {
         "@type": "CreativeWork",
         "name": "Gadolinium deposition in nephrogenic systemic fibrosis: an examination of tissue using synchrotron x-ray fluorescence spectroscopy"
       },
       {
         "@type": "CreativeWork",
         "name": "Geochronology of Southwestern Connecticut"
       },
       {
         "@type": "CreativeWork",
         "name": "IRON REDOX IN FIBERS AND FRAGMENTS OF AMPHIBOLES FROM THE FORMER VERMICULITE MINE NEAR LIBBY, MONTANA"
       },
       {
         "@type": "CreativeWork",
         "name": "JAm ACAD DERMATOL JANUARY 2010 A5"
       },
       {
         "@type": "CreativeWork",
         "@id": "https://doi.org/10.1029/2010gb003794",
         "name": "Natural organobromine in marine sediments: New evidence of biogeochemical Br cycling",
         "identifier": [
           {
             "@type": "PropertyValue",
             "propertyID": "eid",
             "value": "2-s2.0-78649653852"
           },
           {
             "@type": "PropertyValue",
             "propertyID": "doi",
             "value": "10.1029/2010gb003794"
           }
         ]
       },
       {
         "@type": "CreativeWork",
         "name": "Natural organobromine in marine sediments: new evidence of biogeochemical Br cycling"
       },
       {
         "@type": "CreativeWork",
         "name": "Nondestructive XRF and Quantitative Volumetric Image Analysis of Stardust Tracks 140, 151 & 152"
       },
       {
         "@type": "CreativeWork",
         "name": "Oxidation of added Mn (II) in soils as observed by the Cr Oxidation Test and Mn K alpha XANES spectroscopy"
       },
       {
         "@type": "CreativeWork",
         "name": "Petrography, trace element mapping and U-Pb systematics in Triassic tufa calcite of the Newark Basin"
       },
       {
         "@type": "CreativeWork",
         "name": "Practical application of synchrotron-based hard X-ray microprobes in soil sciences"
       },
       {
         "@type": "CreativeWork",
         "name": "Practical application of synchrotron-based hard X-ray microprobes in soil sciences",
         "identifier": {
           "@type": "PropertyValue",
           "propertyID": "eid",
           "value": "2-s2.0-77955793690"
         }
       },
       {
         "@type": "CreativeWork",
         "name": "Prospects for nanoscale, hard x-ray studies of extraterrestrial materials"
       },
       {
         "@type": "CreativeWork",
         "@id": "https://doi.org/10.1104/pp.110.159103",
         "name": "Successful reproduction requires the function of Arabidopsis YELLOW STRIPE-LIKE1 and YELLOW STRIPE-LIKE3 metal-nicotianamine transporters in both vegetative and reproductive structures",
         "identifier": [
           {
             "@type": "PropertyValue",
             "propertyID": "doi",
             "value": "10.1104/pp.110.159103"
           },
           {
             "@type": "PropertyValue",
             "propertyID": "eid",
             "value": "2-s2.0-77956696826"
           }
         ]
       },
       {
         "@type": "CreativeWork",
         "name": "Successful reproduction requires the function of Arabidopsis Yellow Stripe-Like1 and Yellow Stripe-Like3 metal-nicotianamine transporters in both vegetative and reproductive structures"
       },
       {
         "@type": "CreativeWork",
         "@id": "https://doi.org/10.1007/s00410-010-0505-3",
         "name": "TitaniQ under pressure: The effect of pressure and temperature on the solubility of Ti in quartz",
         "identifier": [
           {
             "@type": "PropertyValue",
             "propertyID": "eid",
             "value": "2-s2.0-77957586223"
           },
           {
             "@type": "PropertyValue",
             "propertyID": "doi",
             "value": "10.1007/s00410-010-0505-3"
           }
         ]
       },
       {
         "@type": "CreativeWork",
         "name": "TitaniQ under pressure: the effect of pressure and temperature on the solubility of Ti in quartz"
       },
       {
         "@type": "CreativeWork",
         "@id": "https://doi.org/10.1016/j.asr.2008.06.005",
         "name": "A synchrotron-based facility for the in-situ location, chemical and mineralogical characterization of \u223c10 \u03bcm particles captured in aerogel",
         "identifier": [
           {
             "@type": "PropertyValue",
             "propertyID": "doi",
             "value": "10.1016/j.asr.2008.06.005"
           },
           {
             "@type": "PropertyValue",
             "propertyID": "eid",
             "value": "2-s2.0-58149263167"
           }
         ]
       },
       {
         "@type": "CreativeWork",
         "name": "A synchrotron-based facility for the in-situ location, chemical and mineralogical characterization of~ 10 $\u03bc$m particles captured in aerogel"
       },
       {
         "@type": "CreativeWork",
         "name": "Amyloid plaques in PSAPP mice bind less metal than plaques in human Alzheimer's disease"
       },
       {
         "@type": "CreativeWork",
         "@id": "https://doi.org/10.1016/j.neuroimage.2009.05.063",
         "name": "Amyloid plaques in PSAPP mice bind less metal than plaques in human Alzheimer's disease",
         "identifier": [
           {
             "@type": "PropertyValue",
             "propertyID": "eid",
             "value": "2-s2.0-67651020783"
           },
           {
             "@type": "PropertyValue",
             "propertyID": "doi",
             "value": "10.1016/j.neuroimage.2009.05.063"
           }
         ]
       },
       {
         "@type": "CreativeWork",
         "name": "Arsenic mineralogy of near-surface tailings and soils determined by synchrotron micro-probe and petrographic methods: controls on arsenic behaviour and bioaccessibility in the Nova Scotia gold mining districts"
       },
       {
         "@type": "CreativeWork",
         "name": "Arsenic mineralogy of near-surface tailings and soils: Influences on arsenic mobility and bioaccessibility in the Nova Scotia gold mining districts"
       },
       {
         "@type": "CreativeWork",
         "@id": "https://doi.org/10.3749/canmin.47.3.533",
         "name": "Arsenic mineralogy of near-surface tailings and soils: Influences on arsenic mobility and bioaccessibility in the nova scotia gold mining districts",
         "identifier": [
           {
             "@type": "PropertyValue",
             "propertyID": "eid",
             "value": "2-s2.0-69949145089"
           },
           {
             "@type": "PropertyValue",
             "propertyID": "doi",
             "value": "10.3749/canmin.47.3.533"
           }
         ]
       },
       {
         "@type": "CreativeWork",
         "name": "Characterization of 81P/Wild 2 Particles C2103, 1, 98, 1, 0, C2103, 1, 98, 2, 0, and C2065, 1, 97, 1, 0"
       },
       {
         "@type": "CreativeWork",
         "name": "Characterization of heterogeneities in detector-grade CdZnTe crystals"
       },
       {
         "@type": "CreativeWork",
         "@id": "https://doi.org/10.1557/jmr.2009.0165",
         "name": "Characterization of heterogeneities in detector-grade cdznte crystals",
         "identifier": [
           {
             "@type": "PropertyValue",
             "propertyID": "eid",
             "value": "2-s2.0-65349138983"
           },
           {
             "@type": "PropertyValue",
             "propertyID": "doi",
             "value": "10.1557/jmr.2009.0165"
           }
         ]
       },
       {
         "@type": "CreativeWork",
         "name": "Elemental and mineralogical compositions of cluster IDPs: A possible analog to the Wild 2 particles collected by Stardust"
       },
       {
         "@type": "CreativeWork",
         "name": "High-Resolution Fe XANES Pre-Edge Spectroscopy of Micas"
       },
       {
         "@type": "CreativeWork",
         "name": "High-precision East Pacific Rise, Gal\u00e1pagos Spreading Center, and Gulf of Aden"
       },
       {
         "@type": "CreativeWork",
         "name": "High-precision determination of iron oxidation state in silicate glasses using XANES"
       },
       {
         "@type": "CreativeWork",
         "@id": "https://doi.org/10.1016/j.chemgeo.2009.08.008",
         "name": "High-precision determination of iron oxidation state in silicate glasses using XANES",
         "identifier": [
           {
             "@type": "PropertyValue",
             "propertyID": "doi",
             "value": "10.1016/j.chemgeo.2009.08.008"
           },
           {
             "@type": "PropertyValue",
             "propertyID": "eid",
             "value": "2-s2.0-70350391223"
           }
         ]
       },
       {
         "@type": "CreativeWork",
         "name": "Speciation of micrometer-sized particles using synchrotron X-ray fluorescence, absorption and microdiffraction"
       },
       {
         "@type": "CreativeWork",
         "name": "Synchrotron X-ray 2D and 3D elemental imaging of CdSe/ZnS quantum dot nanoparticles in Daphnia magna"
       },
       {
         "@type": "CreativeWork",
         "@id": "https://doi.org/10.1007/s00216-009-2768-y",
         "name": "Synchrotron X-ray 2D and 3D elemental imaging of CdSe/ZnS quantum dot nanoparticles in Daphnia magna",
         "identifier": [
           {
             "@type": "PropertyValue",
             "propertyID": "doi",
             "value": "10.1007/s00216-009-2768-y"
           },
           {
             "@type": "PropertyValue",
             "propertyID": "eid",
             "value": "2-s2.0-67349273724"
           }
         ]
       },
       {
         "@type": "CreativeWork",
         "name": "Synchrotron X-ray fluorescence microtomography in geo-, cosmo-, and bio-chemistry"
       },
       {
         "@type": "CreativeWork",
         "name": "The fate and speciation of arsenic in soils and poultry production systems"
       },
       {
         "@type": "CreativeWork",
         "name": "Using synchrotron X-ray fluorescence microprobes in the study of metal homeostasis in plants"
       },
       {
         "@type": "CreativeWork",
         "@id": "https://doi.org/10.1093/aob/mcn264",
         "name": "Using synchrotron X-ray fluorescence microprobes in the study of metal homeostasis in plants",
         "identifier": [
           {
             "@type": "PropertyValue",
             "propertyID": "doi",
             "value": "10.1093/aob/mcn264"
           },
           {
             "@type": "PropertyValue",
             "propertyID": "eid",
             "value": "2-s2.0-60749087948"
           }
         ]
       },
       {
         "@type": "CreativeWork",
         "name": "Water and the oxidation state of subduction zone magmas (vol 325, pg 605, 2009)"
       },
       {
         "@type": "CreativeWork",
         "@id": "https://doi.org/10.1080/08940880801988693",
         "name": "Assessing Synchrotron Radiation Capabilities and Future Needs for Molecular Environmental Science and Low-Temperature Geochemistry",
         "identifier": {
           "@type": "PropertyValue",
           "propertyID": "doi",
           "value": "10.1080/08940880801988693"
         }
       },
       {
         "@type": "CreativeWork",
         "name": "Assessing Synchrotron Radiation Capabilities and Future Needs for Molecular Environmental Science and Low-Temperature Geochemistry"
       },
       {
         "@type": "CreativeWork",
         "name": "Characterization of carbon- and nitrogen-rich particle fragments captured from comet 81P/Wild 2",
         "identifier": {
           "@type": "PropertyValue",
           "propertyID": "eid",
           "value": "2-s2.0-46749118089"
         }
       },
       {
         "@type": "CreativeWork",
         "name": "Characterization of carbon-and nitrogen-rich particle fragments captured from comet 81P/Wild 2"
       },
       {
         "@type": "CreativeWork",
         "name": "Chemical composition and heterogeneity of Wild 2 cometary particles determined by synchrotron X-ray fluorescence"
       },
       {
         "@type": "CreativeWork",
         "name": "Chemical composition and heterogeneity of Wild 2 cometary particles determined by synchrotron X-ray fluorescence",
         "identifier": {
           "@type": "PropertyValue",
           "propertyID": "eid",
           "value": "2-s2.0-46749154789"
         }
       },
       {
         "@type": "CreativeWork",
         "name": "Effect of saline waste solution infiltration rates on uranium retention and spatial distribution in Hanford sediments"
       },
       {
         "@type": "CreativeWork",
         "@id": "https://doi.org/10.1021/es070684b",
         "name": "Effect of saline waste solution infiltration rates on uranium retention and spatial distribution in Hanford sediments",
         "identifier": [
           {
             "@type": "PropertyValue",
             "propertyID": "doi",
             "value": "10.1021/es070684b"
           },
           {
             "@type": "PropertyValue",
             "propertyID": "eid",
             "value": "2-s2.0-41849117256"
           }
         ]
       },
       {
         "@type": "CreativeWork",
         "name": "Elemental compositions of large cluster IDPs"
       },
       {
         "@type": "CreativeWork",
         "name": "Evidence that the ZNT3 protein controls the total amount of elemental zinc in synaptic vesicles"
       },
       {
         "@type": "CreativeWork",
         "@id": "https://doi.org/10.1369/jhc.6a7035.2007",
         "name": "Evidence that the ZNT3 protein controls the total amount of elemental zinc in synaptic vesicles",
         "identifier": [
           {
             "@type": "PropertyValue",
             "propertyID": "doi",
             "value": "10.1369/jhc.6a7035.2007"
           },
           {
             "@type": "PropertyValue",
             "propertyID": "eid",
             "value": "2-s2.0-37249070874"
           }
         ]
       },
       {
         "@type": "CreativeWork",
         "name": "Hard X-ray microprobes using mirrors: Capabilities, applications and future developments"
       },
       {
         "@type": "CreativeWork",
         "name": "Real--time speciation of uranium during active bioremediation and U (IV) reoxidation"
       },
       {
         "@type": "CreativeWork",
         "name": "Real-time X-ray absorption spectroscopy of uranium, iron, and manganese in contaminated sediments during bioreduction"
       },
       {
         "@type": "CreativeWork",
         "@id": "https://doi.org/10.1021/es702364x",
         "name": "Real-time X-ray absorption spectroscopy of uranium, iron, and manganese in contaminated sediments during bioreduction",
         "identifier": [
           {
             "@type": "PropertyValue",
             "propertyID": "doi",
             "value": "10.1021/es702364x"
           },
           {
             "@type": "PropertyValue",
             "propertyID": "eid",
             "value": "2-s2.0-42149157728"
           }
         ]
       },
       {
         "@type": "CreativeWork",
         "@id": "https://doi.org/10.1061/(asce)0733-9372(2008)134:2(78)",
         "name": "Real-time speciation of uranium during active bioremediation and U(IV) reoxidation",
         "identifier": [
           {
             "@type": "PropertyValue",
             "propertyID": "doi",
             "value": "10.1061/(asce)0733-9372(2008)134:2(78)"
           },
           {
             "@type": "PropertyValue",
             "propertyID": "eid",
             "value": "2-s2.0-38349002630"
           }
         ]
       },
       {
         "@type": "CreativeWork",
         "name": "XRD Analyses of Small Grains Using Synchrotron Radiation: Potential Application to Samples Returned by Stardust"
       },
       {
         "@type": "CreativeWork",
         "name": "An Initial Assessment of the Needs of the NSLS-II Molecular Environmental Sciences/Low-Temperature Geochemistry User Community"
       },
       {
         "@type": "CreativeWork",
         "name": "Characterization of Three Carbon-and Nitrogen-Rich Particles from Comet 81P/WILD"
       },
       {
         "@type": "CreativeWork",
         "name": "Chemical compositions of five large cluster IDPs"
       },
       {
         "@type": "CreativeWork",
         "name": "High concentration of zinc in sub-retinal pigment epithelial deposits"
       },
       {
         "@type": "CreativeWork",
         "@id": "https://doi.org/10.1016/j.exer.2006.12.015",
         "name": "High concentration of zinc in sub-retinal pigment epithelial deposits",
         "identifier": [
           {
             "@type": "PropertyValue",
             "propertyID": "eid",
             "value": "2-s2.0-33947101484"
           },
           {
             "@type": "PropertyValue",
             "propertyID": "doi",
             "value": "10.1016/j.exer.2006.12.015"
           }
         ]
       },
       {
         "@type": "CreativeWork",
         "name": "Iron homeostasis in arabidopsis: Vacuoles and beyond"
       },
       {
         "@type": "CreativeWork",
         "name": "Long-term stability of organic carbon-stimulated chromate reduction in contaminated soils and its relation to manganese redox status"
       },
       {
         "@type": "CreativeWork",
         "@id": "https://doi.org/10.1021/es062874c",
         "name": "Long-term stability of organic carbon-stimulated chromate reduction in contaminated soils and its relation to manganese redox status",
         "identifier": [
           {
             "@type": "PropertyValue",
             "propertyID": "eid",
             "value": "2-s2.0-34250794476"
           },
           {
             "@type": "PropertyValue",
             "propertyID": "doi",
             "value": "10.1021/es062874c"
           }
         ]
       },
       {
         "@type": "CreativeWork",
         "name": "Mesoscale Biotransformation of Uranium: Influences of Organic Carbon Supply Rates and Sediment Oxides"
       },
       {
         "@type": "CreativeWork",
         "name": "Micro-XANES Determination Fe Speciation in Natural Basalts at Mantle-Relevant fO2"
       },
       {
         "@type": "CreativeWork",
         "@id": "https://doi.org/10.1029/2007eo510004",
         "name": "Synchrotron Radiation Needs for Molecular Environmental Science",
         "identifier": {
           "@type": "PropertyValue",
           "propertyID": "doi",
           "value": "10.1029/2007eo510004"
         }
       },
       {
         "@type": "CreativeWork",
         "name": "Synchrotron radiation needs for molecular environmental science",
         "identifier": {
           "@type": "PropertyValue",
           "propertyID": "eid",
           "value": "2-s2.0-38149008174"
         }
       },
       {
         "@type": "CreativeWork",
         "name": "Synchrotron radiation needs for molecular environmental science"
       },
       {
         "@type": "CreativeWork",
         "@id": "https://doi.org/10.1109/nebc.2007.4413276",
         "name": "Synchrotron-based imaging detects metal and plaques in a mouse model of Alzheimer's disease",
         "identifier": [
           {
             "@type": "PropertyValue",
             "propertyID": "doi",
             "value": "10.1109/nebc.2007.4413276"
           },
           {
             "@type": "PropertyValue",
             "propertyID": "eid",
             "value": "2-s2.0-48749106435"
           }
         ]
       },
       {
         "@type": "CreativeWork",
         "name": "Synchrotron-based imaging detects metal and plaques in a mouse model of Alzheimer\u2019s disease"
       },
       {
         "@type": "CreativeWork",
         "name": "Technical Report: Growth of Environmental Science at the NSLS"
       },
       {
         "@type": "CreativeWork",
         "name": "Trace element distributions and coral skeleton micromorphology following a bleaching event"
       },
       {
         "@type": "CreativeWork",
         "@id": "https://doi.org/10.1016/j.gca.2006.06.694",
         "name": "Synchrotron X-ray microbeam techniques in assessing metal bioavailability in the environment",
         "identifier": {
           "@type": "PropertyValue",
           "propertyID": "doi",
           "value": "10.1016/j.gca.2006.06.694"
         }
       },
       {
         "@type": "CreativeWork",
         "@id": "https://doi.org/10.1016/j.gca.2006.06.1591",
         "name": "Synchrotron \u03bc-XRF mapping of elemental distributions across coral skeleton micro-architecture",
         "identifier": {
           "@type": "PropertyValue",
           "propertyID": "doi",
           "value": "10.1016/j.gca.2006.06.1591"
         }
       },
       {
         "@type": "CreativeWork",
         "name": "Accessing user facilities and making your research experience successful"
       },
       {
         "@type": "CreativeWork",
         "@id": "https://doi.org/10.2113/gselements.2.1.31",
         "name": "Accessing user facilities and making your research experience successful",
         "identifier": [
           {
             "@type": "PropertyValue",
             "propertyID": "eid",
             "value": "2-s2.0-34248649875"
           },
           {
             "@type": "PropertyValue",
             "propertyID": "doi",
             "value": "10.2113/gselements.2.1.31"
           }
         ]
       },
       {
         "@type": "CreativeWork",
         "name": "Chemical analysis of Wild-2 samples returned by Stardust"
       },
       {
         "@type": "CreativeWork",
         "name": "Chemical compositions of large cluster IDPs"
       },
       {
         "@type": "CreativeWork",
         "name": "Comet 81P/Wild 2 under a microscope"
       },
       {
         "@type": "CreativeWork",
         "@id": "https://doi.org/10.1126/science.1135840",
         "name": "Comet 81P/wild 2 under a microscope",
         "identifier": [
           {
             "@type": "PropertyValue",
             "propertyID": "doi",
             "value": "10.1126/science.1135840"
           },
           {
             "@type": "PropertyValue",
             "propertyID": "eid",
             "value": "2-s2.0-33845685034"
           }
         ]
       },
       {
         "@type": "CreativeWork",
         "name": "Elemental compositions of comet 81P/Wild 2 samples collected by Stardust"
       },
       {
         "@type": "CreativeWork",
         "@id": "https://doi.org/10.1126/science.1136141",
         "name": "Elemental compositions of comet 81P/wild 2 samples collected by stardust",
         "identifier": [
           {
             "@type": "PropertyValue",
             "propertyID": "doi",
             "value": "10.1126/science.1136141"
           },
           {
             "@type": "PropertyValue",
             "propertyID": "eid",
             "value": "2-s2.0-33845700757"
           }
         ]
       },
       {
         "@type": "CreativeWork",
         "name": "LangenhorstF"
       },
       {
         "@type": "CreativeWork",
         "name": "Localization of iron in Arabidopsis seed requires the vacuolar membrane transporter VIT1"
       },
       {
         "@type": "CreativeWork",
         "@id": "https://doi.org/10.1126/science.1132563",
         "name": "Localization of iron in Arabidopsis seed requires the vacuolar membrane transporter VIT1",
         "identifier": [
           {
             "@type": "PropertyValue",
             "propertyID": "eid",
             "value": "2-s2.0-33751573050"
           },
           {
             "@type": "PropertyValue",
             "propertyID": "doi",
             "value": "10.1126/science.1132563"
           }
         ]
       },
       {
         "@type": "CreativeWork",
         "name": "MESOSCALE BIOTRANSFORMATIONS OF URANIUM IN SEDIMENTS AND SOILS (Program Element: Biogeochemistry)"
       },
       {
         "@type": "CreativeWork",
         "name": "Matthew D. Hall, Rebecca A. Alderden, Mei Zhang, Philip J. Beale, Zhonghou Cai, Barry Lai, Anton PJ Stampfl, Trevor W. Hambley. The fate of platinum (II) and platinum (IV) anti-cancer agents in cancer cells and tumours.......................................................................... 38 Guijian Liu, Weidong Huang, Robert D. Moir, Charles R. Vanderburg, Barry Lai, Zicheng Peng, Rudolph E. Tanzi, Jack T. Rogers, Xudong Huang. Metal exposure and Alzheimer\u00d5s"
       },
       {
         "@type": "CreativeWork",
         "name": "Medical Mineralogy and Geochemistry"
       },
       {
         "@type": "CreativeWork",
         "@id": "https://doi.org/10.2138/rmg.2006.64.3",
         "name": "Metal speciation and its role in bioaccessibility and bioavailability",
         "identifier": [
           {
             "@type": "PropertyValue",
             "propertyID": "doi",
             "value": "10.2138/rmg.2006.64.3"
           },
           {
             "@type": "PropertyValue",
             "propertyID": "eid",
             "value": "2-s2.0-33845975510"
           }
         ]
       },
       {
         "@type": "CreativeWork",
         "name": "Metal speciation and its role in bioaccessibility and bioavailability"
       },
       {
         "@type": "CreativeWork",
         "name": "Mineralogy and Petrology of Comet Wild2 Nucleus Samples-Final Results of the Preliminary Examination Team"
       },
       {
         "@type": "CreativeWork",
         "name": "Mineralogy and petrology of Comet Wild-2 nucleus samples-Final results of the preliminary examination team"
       },
       {
         "@type": "CreativeWork",
         "name": "Mineralogy and petrology of comet 81P/Wild 2 nucleus samples"
       },
       {
         "@type": "CreativeWork",
         "@id": "https://doi.org/10.1126/science.1135842",
         "name": "Mineralogy and petrology of comet 81P/wild 2 nucleus samples",
         "identifier": [
           {
             "@type": "PropertyValue",
             "propertyID": "doi",
             "value": "10.1126/science.1135842"
           },
           {
             "@type": "PropertyValue",
             "propertyID": "eid",
             "value": "2-s2.0-33845685808"
           }
         ]
       },
       {
         "@type": "CreativeWork",
         "name": "Quantitative determination of absolute organohalogen concentrations in environmental samples by X-ray absorption spectroscopy"
       },
       {
         "@type": "CreativeWork",
         "@id": "https://doi.org/10.1021/ac060476m",
         "name": "Quantitative determination of absolute organohalogen concentrations in environmental samples by X-ray absorption spectroscopy",
         "identifier": [
           {
             "@type": "PropertyValue",
             "propertyID": "doi",
             "value": "10.1021/ac060476m"
           },
           {
             "@type": "PropertyValue",
             "propertyID": "eid",
             "value": "2-s2.0-33747610658"
           }
         ]
       },
       {
         "@type": "CreativeWork",
         "name": "Spatial and temporal variability of arsenic solid-state speciation in historically lead arsenate contaminated soils"
       },
       {
         "@type": "CreativeWork",
         "@id": "https://doi.org/10.1021/es051266e",
         "name": "Spatial and temporal variability of arsenic solid-state speciation in historically lead arsenate contaminated soils",
         "identifier": [
           {
             "@type": "PropertyValue",
             "propertyID": "eid",
             "value": "2-s2.0-32344448800"
           },
           {
             "@type": "PropertyValue",
             "propertyID": "doi",
             "value": "10.1021/es051266e"
           }
         ]
       },
       {
         "@type": "CreativeWork",
         "name": "Stardust (comet) samples and the meteorite record"
       },
       {
         "@type": "CreativeWork",
         "name": "Synchrotron $\u03bc$-XRF mapping of elemental distributions across coral skeleton micro-architecture"
       },
       {
         "@type": "CreativeWork",
         "name": "Synchrotron X-ray microbeam techniques in assessing metal bioavailability in the environment"
       },
       {
         "@type": "CreativeWork",
         "name": "Synchrotron-based infrared and X-ray imaging shows focalized accumulation of Cu and Zn co-localized with $\u03b2$-amyloid deposits in Alzheimer\u2019s disease"
       },
       {
         "@type": "CreativeWork",
         "@id": "https://doi.org/10.1016/j.jsb.2005.09.004",
         "name": "Synchrotron-based infrared and X-ray imaging shows focalized accumulation of Cu and Zn co-localized with \u03b2-amyloid deposits in Alzheimer's disease",
         "identifier": [
           {
             "@type": "PropertyValue",
             "propertyID": "doi",
             "value": "10.1016/j.jsb.2005.09.004"
           },
           {
             "@type": "PropertyValue",
             "propertyID": "eid",
             "value": "2-s2.0-33745004381"
           }
         ]
       },
       {
         "@type": "CreativeWork",
         "name": "Tropical dendrochemistry: A novel approach to estimate age and growth from ringless trees"
       },
       {
         "@type": "CreativeWork",
         "@id": "https://doi.org/10.1029/2006gl026929",
         "name": "Tropical dendrochemistry: A novel approach to estimate age and growth from ringless trees",
         "identifier": [
           {
             "@type": "PropertyValue",
             "propertyID": "doi",
             "value": "10.1029/2006gl026929"
           },
           {
             "@type": "PropertyValue",
             "propertyID": "eid",
             "value": "2-s2.0-33845641251"
           }
         ]
       },
       {
         "@type": "CreativeWork",
         "@id": "https://doi.org/10.1016/j.nima.2006.02.179",
         "name": "X27A-A new hard X-ray micro-spectroscopy facility at the National Synchrotron Light Source",
         "identifier": [
           {
             "@type": "PropertyValue",
             "propertyID": "doi",
             "value": "10.1016/j.nima.2006.02.179"
           },
           {
             "@type": "PropertyValue",
             "propertyID": "eid",
             "value": "2-s2.0-33646778142"
           }
         ]
       },
       {
         "@type": "CreativeWork",
         "name": "X27A\u2014A new hard X-ray micro-spectroscopy facility at the National Synchrotron Light Source"
       },
       {
         "@type": "CreativeWork",
         "name": "Zinc coordination to multiple ligand atoms in organic-rich surface soils"
       },
       {
         "@type": "CreativeWork",
         "@id": "https://doi.org/10.1021/es0608343",
         "name": "Zinc coordination to multiple ligand atoms in organic-rich surface soils",
         "identifier": [
           {
             "@type": "PropertyValue",
             "propertyID": "doi",
             "value": "10.1021/es0608343"
           },
           {
             "@type": "PropertyValue",
             "propertyID": "eid",
             "value": "2-s2.0-33748793122"
           }
         ]
       },
       {
         "@type": "CreativeWork",
         "name": "241Am, 137Cs, Sr and Pb uptake by tobacco as influenced by application of Fe chelators to soil"
       },
       {
         "@type": "CreativeWork",
         "@id": "https://doi.org/10.1016/j.jenvrad.2004.11.006",
         "name": "241Am,137Cs, Sr and Pb uptake by tobacco as influenced by application of Fe chelators to soil",
         "identifier": [
           {
             "@type": "PropertyValue",
             "propertyID": "doi",
             "value": "10.1016/j.jenvrad.2004.11.006"
           },
           {
             "@type": "PropertyValue",
             "propertyID": "eid",
             "value": "2-s2.0-17044407046"
           }
         ]
       },
       {
         "@type": "CreativeWork",
         "name": "Application of synchrotron X-ray microbeam spectroscopy to the determination of metal distribution and speciation in biological tissues"
       },
       {
         "@type": "CreativeWork",
         "@id": "https://doi.org/10.1081/sl-200058715",
         "name": "Application of synchrotron X-ray microbeam spectroscopy to the determination of metal distribution and speciation in biological tissues",
         "identifier": [
           {
             "@type": "PropertyValue",
             "propertyID": "doi",
             "value": "10.1081/sl-200058715"
           },
           {
             "@type": "PropertyValue",
             "propertyID": "eid",
             "value": "2-s2.0-20444457619"
           }
         ]
       },
       {
         "@type": "CreativeWork",
         "name": "Chemical and Mineralogical Analyses of Particles from the Stratospheric Collectons Coinciding with the 2002 Leonid Storm and the 2003 Comet Grigg-Skjellerup Trail Passage"
       },
       {
         "@type": "CreativeWork",
         "name": "Determining arsenic speciation in iron oxides derived from a gold-roasting operation: application of synchrotron micro-XRD and micro-XANES at the grain scale"
       },
       {
         "@type": "CreativeWork",
         "name": "Development and applications of an epifluorescence module for synchrotron x-ray fluorescence microprobe imaging"
       },
       {
         "@type": "CreativeWork",
         "@id": "https://doi.org/10.1063/1.1928454",
         "name": "Development and applications of an epifluorescence module for synchrotron x-ray fluorescence microprobe imaging",
         "identifier": [
           {
             "@type": "PropertyValue",
             "propertyID": "eid",
             "value": "2-s2.0-20644462978"
           },
           {
             "@type": "PropertyValue",
             "propertyID": "doi",
             "value": "10.1063/1.1928454"
           }
         ]
       },
       {
         "@type": "CreativeWork",
         "name": "Distribution and speciation of metals in annual rings of black willow"
       },
       {
         "@type": "CreativeWork",
         "@id": "https://doi.org/10.2134/jeq2004.0461",
         "name": "Distribution and speciation of metals in annual rings of black willow",
         "identifier": [
           {
             "@type": "PropertyValue",
             "propertyID": "eid",
             "value": "2-s2.0-22944451799"
           },
           {
             "@type": "PropertyValue",
             "propertyID": "doi",
             "value": "10.2134/jeq2004.0461"
           }
         ]
       },
       {
         "@type": "CreativeWork",
         "name": "Emissions and encapsulation of cadmium in CdTe PV modules during fires"
       },
       {
         "@type": "CreativeWork",
         "@id": "https://doi.org/10.1002/pip.624",
         "name": "Emissions and encapsulation of cadmium in CdTe PV modules during fires",
         "identifier": [
           {
             "@type": "PropertyValue",
             "propertyID": "doi",
             "value": "10.1002/pip.624"
           },
           {
             "@type": "PropertyValue",
             "propertyID": "eid",
             "value": "2-s2.0-29044435310"
           }
         ]
       },
       {
         "@type": "CreativeWork",
         "name": "Enhanced zinc consumption causes memory deficits and increased brain levels of zinc"
       },
       {
         "@type": "CreativeWork",
         "@id": "https://doi.org/10.1016/j.physbeh.2004.10.009",
         "name": "Enhanced zinc consumption causes memory deficits and increased brain levels of zinc",
         "identifier": [
           {
             "@type": "PropertyValue",
             "propertyID": "eid",
             "value": "2-s2.0-11844298397"
           },
           {
             "@type": "PropertyValue",
             "propertyID": "doi",
             "value": "10.1016/j.physbeh.2004.10.009"
           }
         ]
       },
       {
         "@type": "CreativeWork",
         "name": "Environmental Sciences Department, Brookhaven National Laboratory, Building 830, PO Box 5000, Upton, NY 11973, USA"
       },
       {
         "@type": "CreativeWork",
         "name": "Evidence for biogenic pyromorphite formation by the nematode Caenorhabditis elegans"
       },
       {
         "@type": "CreativeWork",
         "@id": "https://doi.org/10.1021/es050154k",
         "name": "Evidence for biogenic pyromorphite formation by the nematode Caenorhabditis elegans",
         "identifier": [
           {
             "@type": "PropertyValue",
             "propertyID": "eid",
             "value": "2-s2.0-23244436739"
           },
           {
             "@type": "PropertyValue",
             "propertyID": "doi",
             "value": "10.1021/es050154k"
           }
         ]
       },
       {
         "@type": "CreativeWork",
         "name": "Geometric constraints of in situ synchrotron micro-XANES determinations of oxidation state"
       },
       {
         "@type": "CreativeWork",
         "name": "MAPPING METAL CATALYSTS USING SYNCHROTRON COMPUTED MICROTOMOGRAPHY (CMT) AND MICRO-X-RAY FLUORESCENCE (MICRO XRF)"
       },
       {
         "@type": "CreativeWork",
         "@id": "https://doi.org/10.1007/s11244-005-2908-3",
         "name": "Mapping metal catalysts using synchrotron computed microtomography (CMT) and micro-X-ray fluorescence (\u03bcXRF)",
         "identifier": [
           {
             "@type": "PropertyValue",
             "propertyID": "doi",
             "value": "10.1007/s11244-005-2908-3"
           },
           {
             "@type": "PropertyValue",
             "propertyID": "eid",
             "value": "2-s2.0-18344371866"
           }
         ]
       },
       {
         "@type": "CreativeWork",
         "name": "Meeting Reports: SES-III Meeting"
       },
       {
         "@type": "CreativeWork",
         "name": "Oxidizing Begavior of Soil Manganese"
       },
       {
         "@type": "CreativeWork",
         "name": "Oxidizing behavior of soil manganese: Interactions among abundance, oxidation state, and pH",
         "identifier": {
           "@type": "PropertyValue",
           "propertyID": "eid",
           "value": "2-s2.0-12944284463"
         }
       },
       {
         "@type": "CreativeWork",
         "name": "Oxidizing behavior of soil manganese: interactions among abundance, oxidation state, and pH"
       },
       {
         "@type": "CreativeWork",
         "@id": "https://doi.org/10.2136/sssaj2005.0353",
         "name": "Soil Manganese Oxides and Trace Metals",
         "identifier": {
           "@type": "PropertyValue",
           "propertyID": "doi",
           "value": "10.2136/sssaj2005.0353"
         }
       },
       {
         "@type": "CreativeWork",
         "name": "Soil manganese oxides and trace metals: Competitive sorption and microfocused synchrotron X-ray fluorescence mapping",
         "identifier": {
           "@type": "PropertyValue",
           "propertyID": "eid",
           "value": "2-s2.0-15744380225"
         }
       },
       {
         "@type": "CreativeWork",
         "name": "Soil manganese oxides and trace metals: Competitive sorption and microfocused synchrotron x-ray fluorescence mapping"
       },
       {
         "@type": "CreativeWork",
         "name": "Spatial distribution and speciation of lead around corroding bullets in a shooting range soil studied by micro-X-ray fluorescence and absorption spectroscopy"
       },
       {
         "@type": "CreativeWork",
         "name": "Spatial distribution and speciation of lead around corroding bullets in a shooting range soil studied by micro-X-ray fluorescence and absorption spectroscopy"
       },
       {
         "@type": "CreativeWork",
         "@id": "https://doi.org/10.1021/es0482740",
         "name": "Spatial distribution and speciation of lead around corroding bullets in a shooting range soil studied by micro-X-ray fluorescence and absorption spectroscopy",
         "identifier": [
           {
             "@type": "PropertyValue",
             "propertyID": "doi",
             "value": "10.1021/es0482740"
           },
           {
             "@type": "PropertyValue",
             "propertyID": "eid",
             "value": "2-s2.0-22144496846"
           }
         ]
       },
       {
         "@type": "CreativeWork",
         "name": "Speciation and surface complexation of as on hydrous ferric oxide in soils modified by in situ chemical fixation"
       },
       {
         "@type": "CreativeWork",
         "name": "Synchrotron X-ray microprobe and computed microtomography for characterization of nanocatalysts"
       },
       {
         "@type": "CreativeWork",
         "@id": "https://doi.org/10.1016/j.nimb.2005.07.177",
         "name": "Synchrotron X-ray microprobe and computed microtomography for characterization of nanocatalysts",
         "identifier": [
           {
             "@type": "PropertyValue",
             "propertyID": "eid",
             "value": "2-s2.0-28044460270"
           },
           {
             "@type": "PropertyValue",
             "propertyID": "doi",
             "value": "10.1016/j.nimb.2005.07.177"
           }
         ]
       },
       {
         "@type": "CreativeWork",
         "name": "The speciation of arsenic in iron oxides in mine wastes from the Giant gold mine, NWT: Application of synchrotron micro-XRD and micro-XANES at the grain scale"
       },
       {
         "@type": "CreativeWork",
         "@id": "https://doi.org/10.2113/gscanmin.43.4.1205",
         "name": "The speciation of arsenic in iron oxides in mine wastes from the giant gold mine, N.W.T.: Application of synchrotron micro-XRD and micro-xanes at the grain scale",
         "identifier": [
           {
             "@type": "PropertyValue",
             "propertyID": "doi",
             "value": "10.2113/gscanmin.43.4.1205"
           },
           {
             "@type": "PropertyValue",
             "propertyID": "eid",
             "value": "2-s2.0-28844497525"
           }
         ]
       },
       {
         "@type": "CreativeWork",
         "name": "Transformation of arsenic species in solids and porewaters from Yellowknife Bay, NWT, Canada"
       },
       {
         "@type": "CreativeWork",
         "name": "Transmission and fluorescence mode microXAS analysis of oriented mineral grains"
       },
       {
         "@type": "CreativeWork",
         "name": "Uranium reduction in sediments under diffusion-limited transport of organic carbon"
       },
       {
         "@type": "CreativeWork",
         "@id": "https://doi.org/10.1021/es050221a",
         "name": "Uranium reduction in sediments under diffusion-limited transport of organic carbon",
         "identifier": [
           {
             "@type": "PropertyValue",
             "propertyID": "eid",
             "value": "2-s2.0-25144504892"
           },
           {
             "@type": "PropertyValue",
             "propertyID": "doi",
             "value": "10.1021/es050221a"
           }
         ]
       },
       {
         "@type": "CreativeWork",
         "name": "X-ray fluorescence microprobes using microfocusing mirrors"
       },
       {
         "@type": "CreativeWork",
         "name": "A Synchrotron-based Facility for Location and In-situ Chemical and Mineralogical Analysis of\u0303 10 mm Particles From Comets and Asteroids Returned to Earth in Aerogel"
       },
       {
         "@type": "CreativeWork",
         "@id": "https://doi.org/10.1016/s0012-821x(04)00004-4",
         "name": "Ancient water on asteroid 4 Vesta: Evidence from a quartz veinlet in the Serra de Mag\u00e9 eucrite meteorite",
         "identifier": [
           {
             "@type": "PropertyValue",
             "propertyID": "eid",
             "value": "2-s2.0-1542435054"
           },
           {
             "@type": "PropertyValue",
             "propertyID": "doi",
             "value": "10.1016/s0012-821x(04)00004-4"
           }
         ]
       },
       {
         "@type": "CreativeWork",
         "name": "Ancient water on asteroid 4 Vesta: evidence from a quartz veinlet in the Serra de Mag\u00e9 eucrite meteorite"
       },
       {
         "@type": "CreativeWork",
         "name": "Characterization of petroleum deposits formed in a producing well by synchrotron radiation-based microanalyses"
       },
       {
         "@type": "CreativeWork",
         "@id": "https://doi.org/10.1021/ef030108a",
         "name": "Characterization of petroleum deposits formed in a producing well by synchrotron radiation-based microanalyses",
         "identifier": [
           {
             "@type": "PropertyValue",
             "propertyID": "eid",
             "value": "2-s2.0-4043128208"
           },
           {
             "@type": "PropertyValue",
             "propertyID": "doi",
             "value": "10.1021/ef030108a"
           }
         ]
       },
       {
         "@type": "CreativeWork",
         "name": "Microanalysis of NY/NJ Harbor sediments using synchrotron X-ray beams",
         "identifier": {
           "@type": "PropertyValue",
           "propertyID": "eid",
           "value": "2-s2.0-23844499120"
         }
       },
       {
         "@type": "CreativeWork",
         "name": "Mirror-based X-ray fluorescence microprobes at the Advanced Photon Source and the National Synchrotron Light Source"
       },
       {
         "@type": "CreativeWork",
         "name": "Petrographic and trace element analysis of uranium-rich tufa calcite, middle Miocene Barstow Formation, California, USA"
       },
       {
         "@type": "CreativeWork",
         "@id": "https://doi.org/10.1111/j.1365-3091.2004.00631.x",
         "name": "Petrographic and trace element analysis of uranium-rich tufa calcite, middle Miocene Barstow Formation, California, USA",
         "identifier": [
           {
             "@type": "PropertyValue",
             "propertyID": "doi",
             "value": "10.1111/j.1365-3091.2004.00631.x"
           },
           {
             "@type": "PropertyValue",
             "propertyID": "eid",
             "value": "2-s2.0-2942579076"
           }
         ]
       },
       {
         "@type": "CreativeWork",
         "name": "Synchrotron X-ray diffraction analysis of meteorites in thin section: preliminary results"
       },
       {
         "@type": "CreativeWork",
         "name": "Uranium and other trace element incorporation into tufa calcite"
       },
       {
         "@type": "CreativeWork",
         "name": "A Synchrotron-based Facility for the In-Situ Chemical and Mineralogical Analysis of\u0303 10 $\u03bc$m Particles in Aerogel"
       },
       {
         "@type": "CreativeWork",
         "name": "ACTINIDE ENRICHMENT IN PHOSPHATE BONE FOSSILS OF THE GREEN RIVER FORMATION"
       },
       {
         "@type": "CreativeWork",
         "name": "Arsenic speciation and reactivity in poultry litter"
       },
       {
         "@type": "CreativeWork",
         "@id": "https://doi.org/10.1021/es0340580",
         "name": "Arsenic speciation and reactivity in poultry litter",
         "identifier": [
           {
             "@type": "PropertyValue",
             "propertyID": "doi",
             "value": "10.1021/es0340580"
           },
           {
             "@type": "PropertyValue",
             "propertyID": "eid",
             "value": "2-s2.0-0042691370"
           }
         ]
       },
       {
         "@type": "CreativeWork",
         "name": "Arsenic speciation and reactivity in poultry litter Environ Sci Tech 15: 4083--4090"
       },
       {
         "@type": "CreativeWork",
         "name": "Chemical and mineralogical analysis of an extraterrestrial particle in aerogel"
       },
       {
         "@type": "CreativeWork",
         "@id": "https://doi.org/10.2134/jeq2003.0541",
         "name": "Distribution of Chromium Contamination and Microbial Activity in Soil Aggregates",
         "identifier": {
           "@type": "PropertyValue",
           "propertyID": "doi",
           "value": "10.2134/jeq2003.0541"
         }
       },
       {
         "@type": "CreativeWork",
         "@id": "https://doi.org/10.2134/jeq2003.5410",
         "name": "Distribution of Chromium Contamination and Microbial Activity in Soil Aggregates",
         "identifier": {
           "@type": "PropertyValue",
           "propertyID": "doi",
           "value": "10.2134/jeq2003.5410"
         }
       },
       {
         "@type": "CreativeWork",
         "name": "Distribution of chromium contamination and microbial activity in soil aggregates"
       },
       {
         "@type": "CreativeWork",
         "name": "Distribution of chromium contamination and microbial activity in soil aggregates",
         "identifier": {
           "@type": "PropertyValue",
           "propertyID": "eid",
           "value": "2-s2.0-0037344217"
         }
       },
       {
         "@type": "CreativeWork",
         "name": "F47 Performance and Application of Mirror-Based X-ray Fluorescence Microprobes at the Advanced Photon Source and the National Synchrotron Light Source"
       },
       {
         "@type": "CreativeWork",
         "name": "Geochemical signature of contaminated sediment remobilization revealed by spatially resolved X-ray microanalysis of annual rings of Salix nigra"
       },
       {
         "@type": "CreativeWork",
         "@id": "https://doi.org/10.1021/es0261628",
         "name": "Geochemical signature of contaminated sediment remobilization revealed by spatially resolved X-ray microanalysis of annual rings of Salix nigra",
         "identifier": [
           {
             "@type": "PropertyValue",
             "propertyID": "doi",
             "value": "10.1021/es0261628"
           },
           {
             "@type": "PropertyValue",
             "propertyID": "eid",
             "value": "2-s2.0-0038417055"
           }
         ]
       },
       {
         "@type": "CreativeWork",
         "@id": "https://doi.org/10.2134/jeq2003.1641",
         "name": "In Situ Reduction of Chromium(VI) in Heavily Contaminated Soils through Organic Carbon Amendment",
         "identifier": {
           "@type": "PropertyValue",
           "propertyID": "doi",
           "value": "10.2134/jeq2003.1641"
         }
       },
       {
         "@type": "CreativeWork",
         "name": "In situ reduction of chromium (VI) in heavily contaminated soils through organic carbon amendment"
       },
       {
         "@type": "CreativeWork",
         "name": "In situ reduction of chromium (VI) in heavily contaminated soils through organic carbon amendment"
       },
       {
         "@type": "CreativeWork",
         "name": "In situ reduction of chromium(VI) in heavily contaminated soils through organic carbon amendment",
         "identifier": {
           "@type": "PropertyValue",
           "propertyID": "eid",
           "value": "2-s2.0-0141768145"
         }
       },
       {
         "@type": "CreativeWork",
         "name": "Microanalysis of Ny/nj Harbor Sediments Using Synchrotron X-ray Beams"
       },
       {
         "@type": "CreativeWork",
         "name": "Microscale environmental science studies using high energy synchrotron radiation"
       },
       {
         "@type": "CreativeWork",
         "name": "Phosphor imaging as a tool for in situ mapping of ppm levels of uranium and thorium in rocks and minerals"
       },
       {
         "@type": "CreativeWork",
         "name": "T wIDE RANGE o CHRoMUM applications has re"
       },
       {
         "@type": "CreativeWork",
         "name": "The Application of Synchrotron X-ray Fluorescence to Dendroanalysis: Nickel in Salix nigra L."
       },
       {
         "@type": "CreativeWork",
         "name": "X-ray microtomography study of metal distribution in sediments related to pore structure modification by mineral dissolution and neophase formation under extremely alkaline conditions"
       },
       {
         "@type": "CreativeWork",
         "@id": "https://doi.org/10.1080/08940880208602985",
         "name": "Imaging and microspectroscopy at the national synchrotron light source",
         "identifier": {
           "@type": "PropertyValue",
           "propertyID": "doi",
           "value": "10.1080/08940880208602985"
         }
       },
       {
         "@type": "CreativeWork",
         "name": "A Synchrotron Based Facility for the In-situ Location, Chemical and Mineralogical Characterization of\u0303 10 micron Particles Captured in Aerogel"
       },
       {
         "@type": "CreativeWork",
         "name": "Analytical protocol for determining Cl, Br, and Cl/Br in natural and synthetic fluid inclusions of low salinity"
       },
       {
         "@type": "CreativeWork",
         "name": "Chromium redox transformations in diffusion-limited domains of soils: Linking micro-and macro-scale processes"
       },
       {
         "@type": "CreativeWork",
         "name": "Crystallization conditions of Los Angeles, a basaltic Martian meteorite"
       },
       {
         "@type": "CreativeWork",
         "@id": "https://doi.org/10.1016/s0016-7037(01)00892-4",
         "name": "Crystallization conditions of Los Angeles, a basaltic Martian meteorite",
         "identifier": [
           {
             "@type": "PropertyValue",
             "propertyID": "eid",
             "value": "2-s2.0-0036259941"
           },
           {
             "@type": "PropertyValue",
             "propertyID": "doi",
             "value": "10.1016/s0016-7037(01)00892-4"
           }
         ]
       },
       {
         "@type": "CreativeWork",
         "name": "Hard X-ray microprobe"
       },
       {
         "@type": "CreativeWork",
         "name": "Human health risks from methyl mercury in fish YYYY No org found YYY"
       },
       {
         "@type": "CreativeWork",
         "name": "Imaging and microspectroscopy at the national synchrotron light source"
       },
       {
         "@type": "CreativeWork",
         "name": "Journal of Vascular and Interventional Radiology"
       },
       {
         "@type": "CreativeWork",
         "name": "Micro-scale Pb distribution and oxidation in a shooting range soil"
       },
       {
         "@type": "CreativeWork",
         "name": "Microfluorescence and microtomography analyses of heterogeneous earth and environmental materials",
         "identifier": {
           "@type": "PropertyValue",
           "propertyID": "eid",
           "value": "2-s2.0-33845757571"
         }
       },
       {
         "@type": "CreativeWork",
         "name": "Microfluorescence and microtomography analyses of heterogeneous earth and environmental materials"
       },
       {
         "@type": "CreativeWork",
         "@id": "https://doi.org/10.1016/s0009-2541(02)00223-1",
         "name": "Phosphor imaging as a tool for in situ mapping of ppm levels of uranium and thorium in rocks and minerals",
         "identifier": [
           {
             "@type": "PropertyValue",
             "propertyID": "eid",
             "value": "2-s2.0-0037082277"
           },
           {
             "@type": "PropertyValue",
             "propertyID": "doi",
             "value": "10.1016/s0009-2541(02)00223-1"
           }
         ]
       },
       {
         "@type": "CreativeWork",
         "name": "Use of Synchrotron X-ray Fluorescence to Measure Trace Metal Distribution in the Brain"
       },
       {
         "@type": "CreativeWork",
         "name": "Use of the spindle stage for orientation of single crystals for microXAS: Isotropy and anisotropy in Fe-XANES spectra"
       },
       {
         "@type": "CreativeWork",
         "@id": "https://doi.org/10.2138/am-2002-1029",
         "name": "Use of the spindle stage for orientation of single crystals for microXAS: Isotropy and anisotropy in Fe-XANES spectra",
         "identifier": [
           {
             "@type": "PropertyValue",
             "propertyID": "doi",
             "value": "10.2138/am-2002-1029"
           },
           {
             "@type": "PropertyValue",
             "propertyID": "eid",
             "value": "2-s2.0-0036811391"
           }
         ]
       },
       {
         "@type": "CreativeWork",
         "name": "XRF and XANES studies of uranium incorporation into Miocene tufa calcite"
       },
       {
         "@type": "CreativeWork",
         "name": "Comparison of pyrrhotite from interplanetary dust and meteorites: Evidence for different formation environments"
       },
       {
         "@type": "CreativeWork",
         "name": "Coprecipitation of uranium (VI) with calcite: XAFS, micro-XAS, and luminescence characterization"
       },
       {
         "@type": "CreativeWork",
         "@id": "https://doi.org/10.1016/s0016-7037(01)00647-0",
         "name": "Coprecipitation of uranium(VI) with calcite: XAFS, micro-XAS, and luminescence characterization",
         "identifier": [
           {
             "@type": "PropertyValue",
             "propertyID": "eid",
             "value": "2-s2.0-0035209798"
           },
           {
             "@type": "PropertyValue",
             "propertyID": "doi",
             "value": "10.1016/s0016-7037(01)00647-0"
           }
         ]
       },
       {
         "@type": "CreativeWork",
         "name": "Coupled U-Pb isotopic studies and synchrotron x-ray microbeam analysis of geologic systems"
       },
       {
         "@type": "CreativeWork",
         "name": "Diffusion-Limited Reduction of Chromium in Soil Aggregates"
       },
       {
         "@type": "CreativeWork",
         "name": "Diffusion-limited chromium reduction in soil aggregates"
       },
       {
         "@type": "CreativeWork",
         "name": "Intra-aggregate Biogeochemical Dynamics of Chromium Contamination and In-situ Remediation"
       },
       {
         "@type": "CreativeWork",
         "name": "NSLS 2001 annual users' meeting workshops: Environmental-molecular sciences workshop"
       },
       {
         "@type": "CreativeWork",
         "name": "Sensitivity of soil manganese oxides: Drying and storage cause reduction"
       },
       {
         "@type": "CreativeWork",
         "name": "Sensitivity of soil manganese oxides: Drying and storage cause reduction"
       },
       {
         "@type": "CreativeWork",
         "name": "Sensitivity of soil manganese oxides: Drying and storage cause reduction",
         "identifier": {
           "@type": "PropertyValue",
           "propertyID": "eid",
           "value": "2-s2.0-0034975463"
         }
       },
       {
         "@type": "CreativeWork",
         "name": "Sensitivity of soil manganese oxides: XANES spectroscopy may cause reduction",
         "identifier": {
           "@type": "PropertyValue",
           "propertyID": "eid",
           "value": "2-s2.0-0034969061"
         }
       },
       {
         "@type": "CreativeWork",
         "name": "Synchrotron X-Ray Fluorescence Microprobe Determination of Halides in Natural and Synthetic Aqueous-Fluid Inclusions: Analytical Protocol for Low-Salinity Inclusions"
       },
       {
         "@type": "CreativeWork",
         "name": "The Use of WDS in Synchrotron X-Ray Fluorescence and Spectroscopy: Case Studies Involving Heterogeneous Reactivity at the Mineral-Water Interface"
       },
       {
         "@type": "CreativeWork",
         "name": "Trace Element Incorporation in Caliche Paleosols"
       },
       {
         "@type": "CreativeWork",
         "name": "Uranium (VI) incorporation in paleosol calcite: evidence for sequestration of U on geologic time scales"
       },
       {
         "@type": "CreativeWork",
         "name": "Uranium-Lead Ages of Lake Margin Tufa Calcite From the Middle Miocene Barstow Formation, Southern California"
       },
       {
         "@type": "CreativeWork",
         "name": "A comparison of the selenium contents of sulfides from interplanetary dust particles and meteorites"
       },
       {
         "@type": "CreativeWork",
         "name": "Combined X-ray diffraction mineralogical classification and X-ray fluorescence chemical analysis of individual interplanetary dust particles"
       },
       {
         "@type": "CreativeWork",
         "@id": "https://doi.org/10.1130/0-8137-2331-0.179",
         "name": "Constraints on timing and displacement of multistage shearing in the Norumbega fault system, eastern Maine",
         "identifier": [
           {
             "@type": "PropertyValue",
             "propertyID": "doi",
             "value": "10.1130/0-8137-2331-0.179"
           },
           {
             "@type": "PropertyValue",
             "propertyID": "eid",
             "value": "2-s2.0-84870904989"
           }
         ]
       },
       {
         "@type": "CreativeWork",
         "name": "Constraints on timing and displacement of multistage shearing in the Norumbega fault system, eastern Maine"
       },
       {
         "@type": "CreativeWork",
         "name": "New Mexico middle-crustal cross sections: 1.65-Ga macroscopic geometry, 1.4-Ga thermal structure, and continued problems in understanding crustal evolution"
       },
       {
         "@type": "CreativeWork",
         "name": "Trace-element chemical analyses with synchrotron-based X-ray microprobes"
       },
       {
         "@type": "CreativeWork",
         "name": "An assessment of the utility of staurolite in U-Pb dating of metamorphism"
       },
       {
         "@type": "CreativeWork",
         "@id": "https://doi.org/10.1007/s004100050342",
         "name": "An assessment of the utility of staurolite in U-Pb dating of metamorphism",
         "identifier": [
           {
             "@type": "PropertyValue",
             "propertyID": "doi",
             "value": "10.1007/s004100050342"
           },
           {
             "@type": "PropertyValue",
             "propertyID": "eid",
             "value": "2-s2.0-0031372727"
           }
         ]
       },
       {
         "@type": "CreativeWork",
         "@id": "https://doi.org/10.1007/s004100050226",
         "name": "Geochronology and geochemistry of multiple generations of monazite from the Wepawaug Schist, Connecticut, USA: implications for monazite stability in metamorphic rocks",
         "identifier": {
           "@type": "PropertyValue",
           "propertyID": "doi",
           "value": "10.1007/s004100050226"
         }
       },
       {
         "@type": "CreativeWork",
         "name": "A doublylooping P--T--t--D history for Proterozoic rocks of northern New Mexico and implications for the tectonothermal behavior of the mid-crust"
       },
       {
         "@type": "CreativeWork",
         "name": "A more vigorous approach to dating mid-crustal processes: U-Pb dating of varied major and accessory metamorphic minerals tied to microstructural studies"
       },
       {
         "@type": "CreativeWork",
         "name": "Geochronology and geochemistry of multiple generations of monazite from the Wepawaug Schist, Connecticut, USA: Implications for monazite stability in metamorphic rocks",
         "identifier": {
           "@type": "PropertyValue",
           "propertyID": "eid",
           "value": "2-s2.0-0030376132"
         }
       },
       {
         "@type": "CreativeWork",
         "name": "Geochronology and geochemistry of multiple generations of monazite from the Wepawaug Schist, Connecticut, USA: implications for monazite stability in metamorphic rocks"
       },
       {
         "@type": "CreativeWork",
         "name": "Timing constraints on porphyroblast growth and fabric development in the southern Picuris Range, north central New Mexico; implications for the protracted tectonic/thermal evolution of the middle crust"
       },
       {
         "@type": "CreativeWork",
         "name": "The Orange-Milford Belt of Southwestern Connecticut: Identifying unique crustal packages in New England using combined geochemistry, geochronology, and petrology"
       },
       {
         "@type": "CreativeWork",
         "name": "U-Pb dating of major and accessory minerals formed during metamorphism and deformation of metapelites"
       },
       {
         "@type": "CreativeWork",
         "@id": "https://doi.org/10.1016/0016-7037(95)00146-8",
         "name": "U-Pb dating of major and accessory minerals formed during metamorphism and deformation of metapelites",
         "identifier": [
           {
             "@type": "PropertyValue",
             "propertyID": "doi",
             "value": "10.1016/0016-7037(95)00146-8"
           },
           {
             "@type": "PropertyValue",
             "propertyID": "eid",
             "value": "2-s2.0-0028864922"
           }
         ]
       },
       {
         "@type": "CreativeWork",
         "name": "U-Pb dating of metapelites"
       },
       {
         "@type": "CreativeWork",
         "name": "Yttrium zoning in metamorphic garnets"
       },
       {
         "@type": "CreativeWork",
         "@id": "https://doi.org/10.1016/0016-7037(95)00320-y",
         "name": "Yttrium zoning in metamorphic garnets",
         "identifier": [
           {
             "@type": "PropertyValue",
             "propertyID": "eid",
             "value": "2-s2.0-0029501021"
           },
           {
             "@type": "PropertyValue",
             "propertyID": "doi",
             "value": "10.1016/0016-7037(95)00320-y"
           }
         ]
       },
       {
         "@type": "CreativeWork",
         "name": "Isotopic evidence for Cambrian tectonism in the crystalline southern Appalachians: The Carolinian, not the Taconian"
       },
       {
         "@type": "CreativeWork",
         "name": "Leucogranites and the prolonged, episodic nature of Acadian orogenesis, southwestern Connecticut"
       },
       {
         "@type": "CreativeWork",
         "name": "Metamorphic and structural evolution of the Straits Schist, W. Connecticut: U-PB monazite constraints"
       },
       {
         "@type": "CreativeWork",
         "name": "REE geochemistry of the Maltby Lakes Metavolcanics and Allingtown metadiabase, southwest Connecticut"
       },
       {
         "@type": "CreativeWork",
         "name": "U-Pb dating of staurolite"
       },
       {
         "@type": "CreativeWork",
         "name": "Multiple generations of monazite growth in metapelites of the Wepawaug Schist, southern Connecticut"
       },
       {
         "@type": "CreativeWork",
         "name": "Geology and geochemistry of a Proterozoic supracrustal and intrusive sequence in the Central Wet Mountains"
       },
       {
         "@type": "CreativeWork",
         "name": "Geology and geochemistry of a Proterozoic supracrustal and intrusive sequence in the central Wet Mountains, Colorado"
       },
       {
         "@type": "CreativeWork",
         "name": "Origin and tectonic significance of early Proterozoic leucogranites and high-pressure granulites in the Wet Mountains, Colorado"
       },
       {
         "@type": "CreativeWork",
         "name": "A., SR Sutton, M. Newville, J. Dyer, and DL Sparks. 2006. Spatial and temporal variability of arsenic solid-state speciation in historically lead arsenate contaminated soils"
       },
       {
         "@type": "CreativeWork",
         "name": "Chromate Diffusion and Reduction in Soil Aggregates: Dynamics of Contamination and In-situ Reduction"
       },
       {
         "@type": "CreativeWork",
         "name": "Describing the Arabidopsis ionome using Synchrotron X-Ray Fluorescence Microtomography."
       },
       {
         "@type": "CreativeWork",
         "name": "Fe-AND Cr-XANES ANALYSES OF LARGE CLUSTER INTERPLANETARY DUST PARTICLES. GJ"
       },
       {
         "@type": "CreativeWork",
         "name": "In Situ Reduction of Cr (VI) in Contaminated Soils through Organic Carbon Amendment"
       },
       {
         "@type": "CreativeWork",
         "name": "In-situ Remediation of Cr (VI) in Contaminated Soils Through Organic Carbon Amendment"
       },
       {
         "@type": "CreativeWork",
         "name": "Incorporation of U and Th in Phosphatized Fossils"
       },
       {
         "@type": "CreativeWork",
         "name": "Incorporation of Uranium and Other Trace Elements in Lacustrine Tufa Calcite"
       },
       {
         "@type": "CreativeWork",
         "name": "Microscale Speciation of As in Poultry Litter"
       },
       {
         "@type": "CreativeWork",
         "name": "Scientific Data Exchange: a schema for HDF5-based storage of raw and analyzed data"
       },
       {
         "@type": "CreativeWork",
         "name": "Supplementary Information for Natural Organobromine in Marine Sediments: New Evidence of Biogeochemical Br Cycling"
       },
       {
         "@type": "CreativeWork",
         "name": "Supporting Information Effect of Saline Waste Solution Infiltration Rates on Uranium Retention and Spatial Distribution in Hanford Sediments"
       },
       {
         "@type": "CreativeWork",
         "name": "Supporting Information for"
       },
       {
         "@type": "CreativeWork",
         "name": "The Mineralogy and Geochemistry of Los Angeles, a Martian Basaltic Meteorite"
       },
       {
         "@type": "CreativeWork",
         "name": "The absorption of common metals in leaf of the common dandelion as a measure of metals in soil"
       },
       {
         "@type": "CreativeWork",
         "name": "Uranium Behavior in Jurassic Fish Coprolites: Combined Microbeam Synchrotron X-Ray Fluorescence, Diffraction, and XANES Analysis"
       },
       {
         "@type": "CreativeWork",
         "name": "Uranium Incorporation Into Pedogenic Carbonates"
       }
     ]
   },
   "url": [
     "https://gsecars.uchicago.edu/",
     "https://seescience.org/"
   ],
   "identifier": {
     "@type": "PropertyValue",
     "propertyID": "Scopus Author ID",
     "value": "25944003000"
   }
 }

}