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W2615787233 startingPage "466" @default.
W2615787233 abstract "Macroscopic measurements show that Pb(II) uptake on iron-(hydr)oxides can be altered significantly by dissolved carbonate (enhanced up to 18% at pH 5 and decreased above pH ∼6.5 in analyses at 1 atm CO2). This study elucidates the molecular-scale processes giving rise to these macroscopic effects by characterizing the structures of Pb(II) sorption complexes formed on goethite (α-FeOOH) in the presence of carbonate using in situ Pb LIII-EXAFS and ATR-FTIR spectroscopies. Bond valence and structural constraints are applied to develop mineral surface site-specific models for Pb sorption. Under all conditions studied (pH 5–7, ΓPb=0.4–4μmol/m2, and PCO2=0–1 atm), Pb(II) forms predominantly inner-sphere edge-sharing (bidentate and/or tridentate) complexes with Fe(O,OH)6 octahedra (RPb–Fe∼3.3 Å). Corner-sharing complexes (RPb–Fe∼3.9 Å) are observed only in low pH (5) samples (PCO2 0–1 atm). Consistent with this pH sensitivity, site-specific analyses suggest that the relative abundance of corner-sharing sites reflects changes in the proton affinity of triply coordinated sites on the goethite (110) surface as suggested previously. FTIR results suggest the existence of ternary surface complexes in which carbonate groups bond to Pb as monodentate ligands. EXAFS data indicate that these ternary complexes are bound to the surface through Pb, forming metal-bridged (Type A) complexes. Findings are summarized as structural models and corresponding mineral surface site-specific chemical reactions." @default.
W2615787233 created "2017-05-26" @default.
W2615787233 creator A5002171426 @default.
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W2615787233 creator A5024778665 @default.
W2615787233 creator A5033446826 @default.
W2615787233 creator A5088077718 @default.
W2615787233 date "2000-05-01" @default.
W2615787233 modified "2023-10-15" @default.
W2615787233 title "Inorganic Ligand Effects on Pb(II) Sorption to Goethite (α-FeOOH)" @default.
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W2615787233 doi "https://doi.org/10.1006/jcis.1999.6701" @default.
W2615787233 hasPubMedId "https://pubmed.ncbi.nlm.nih.gov/11254287" @default.
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