砷酸盐由非晶态氧化锰氧化。3. 砷和锰的解吸。

Arsenite oxidation by a poorly-crystalline manganese oxide. 3. Arsenic and manganese desorption.

机构信息

Department of Plant and Soil Sciences, Delaware Environmental Institute, University of Delaware, 152 Townsend Hall, Newark, Delaware 19716, United States.

出版信息

Environ Sci Technol. 2011 Nov 1;45(21):9218-23. doi: 10.1021/es201281u. Epub 2011 Oct 12.

DOI:10.1021/es201281u

PMID:21950706

Abstract

Arsenic (As) mobility in the environment is greatly affected by its oxidation state and the degree to which it is sorbed on metal oxide surfaces. Manganese oxides (Mn oxides) have the ability to decrease overall As mobility both by oxidizing toxic arsenite (As(III)) to less toxic arsenate (As(V)), and by sorbing As. However, the effect of competing ions on the mobility of As sorbed on Mn-oxide surfaces is not well understood. In this study, desorption of As(V) and As(III) from a poorly crystalline phyllomanganate (δ-MnO(2)) by two environmentally significant ions is investigated using a stirred-flow technique and X-ray absorption spectroscopy (XAS). As(III) is not observed in solution after desorption under any conditions used in this study, agreeing with previous studies showing As sorbed on Mn-oxides exists only as As(V). However, some As(V) is desorbed from the δ-MnO(2) surface under all conditions studied, while neither desorptive used in this study completely removes As(V) from the δ-MnO(2) surface.

摘要

砷（As）在环境中的迁移性受其氧化态和在金属氧化物表面吸附程度的影响很大。锰氧化物（Mn 氧化物）具有降低砷整体迁移性的能力，既能将有毒的亚砷酸盐（As(III)）氧化为毒性较小的砷酸盐（As(V)），也能吸附砷。然而，竞争离子对吸附在 Mn 氧化物表面上的砷迁移性的影响尚不清楚。在这项研究中，使用搅拌流技术和 X 射线吸收光谱（XAS）研究了两种具有重要环境意义的离子对一种非晶态叶状锰酸盐（δ-MnO(2)）上砷（V）和砷（III）解吸的影响。在本研究中使用的任何条件下，解吸后溶液中均未观察到 As(III)，这与先前的研究结果一致，即吸附在 Mn-氧化物上的砷仅以 As(V)的形式存在。然而，在所有研究的条件下，均有部分 As(V)从 δ-MnO(2)表面解吸，而本研究中使用的两种解吸剂均未将所有的 As(V)从 δ-MnO(2)表面去除。

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砷酸盐由非晶态氧化锰氧化。3. 砷和锰的解吸。

Arsenite oxidation by a poorly-crystalline manganese oxide. 3. Arsenic and manganese desorption.

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