Structural Chemistry of Fe, Mn, and Ni in Synthetic Hematites as Determined by Extended X-Ray Absorption Fine Structure Spectroscopy

被引:0
作者
Balwant Singh
D. M. Sherman
R. J. Gilkes
M. Wells
J. F. W. Mosselmans
机构
[1] The University of Sydney,Department of Agricultural Chemistry & Soil Science
[2] University of Bristol,Department of Geology
[3] University of Western Australia,Department of Soil Science & Plant Nutrition
[4] University of Canberra,CRC LEME
[5] CCLRC,Daresbury Laboratory
来源
Clays and Clay Minerals | 2000年 / 48卷
关键词
EXAFS; Fe Oxides; Hematite; Metal Substitution; Trace Elements; XAS; XRD;
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摘要
The incorporation of transition metals into hematite may limit the aqueous concentration and bioavailabity of several important nutrients and toxic heavy metals. Before predicting how hematite controls metal-cation solubility, we must understand the mechanisms by which metal cations are incorporated into hematite. Thus, we have studied the mechanism for Ni2+ and Mn3+ uptake into hematite using extended X-ray absorption fine structures (EXAFS) spectroscopy. EXAFS measurements show that the coordination environment of Ni2+ in hematite corresponds to that resulting from Ni2+ replacing Fe3+. No evidence for NiO or Ni(OH)2 was found. The infrared spectrum of Ni-substituted hematite shows an OH-stretch band at 3168 cirr−1 and Fe-OH bending modes at 892 and 796 cm−1. These vibrational bands are similar to those found in goethite. The results suggest that the substitution of Ni2+ for Fe3+ is coupled with the protonation of one of the hematite oxygen atoms to maintain charge balance.
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页码:521 / 527
页数:6
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