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Spontaneous Abiotic Reduction of Arsenate to Arsenite Mediated by Structural Fe(II) Resulting from Abundant Oxygen Vacancy Clusters in Poorly Crystalline Ferrihydrite in Drought Environments

铁酸盐 缺氧水域 亚砷酸盐 氧烷 化学 砷酸盐 X射线光电子能谱 X射线吸收光谱法 氧气 空位缺陷 无机化学 环境化学 吸附 光谱学 结晶学 吸收光谱法 化学工程 物理化学 有机化学 工程类 物理 量子力学
作者
Yongjin Xiang,Jingtao Hou,Lu Ren,Juan Xiong,Biao Wan,Mingxia Wang,Wenfeng Tan,Andreas Kappler
出处
期刊:Environmental Science & Technology [American Chemical Society]
卷期号:59 (10): 5191-5201 被引量:15
标识
DOI:10.1021/acs.est.4c10674
摘要

The reduction of As(V) to As(III) has been proposed as an undesirable process, increasing the mobility and toxicity of arsenic. Although most studies revealed that As(V) reduction occurs in the aqueous phase, it remains unclear whether abiotic As(V) reduction driven by minerals in drought environments also exists. In this study, we examined the transformation of As(V) to As(III) mediated by ferrihydrite during drying processes using high-resolution X-ray photoelectron spectroscopy (XPS) and X-ray absorption near edge structure (XANES) spectroscopy analyses. The results revealed that nearly 40.8% of ferrihydrite-sorbed As(V) was transformed to As(III) after placing the As(V)-adsorbed ferrihydrite solids in a drought-tolerant environment for 7 days. As(V) reduction occurred under both oxic and anoxic conditions, with the reduction rate being higher in an anoxic atmosphere than in oxygen and air. Chemical analysis revealed the presence of structural Fe(II) in ferrihydrite, which was attributed to the abundance of oxygen vacancy clusters, as evidenced by positron annihilation lifetime (PAL) analysis. Fe L-edge XANES analysis and DFT calculations demonstrated that structural Fe(II) in dried ferrihydrite played a vital role in As(V) reduction, inducing electron transfer from Fe to As atoms. The findings of this study highlight a potentially important but long-overlooked As(V) reduction pathway at mineral surfaces under drought conditions in dried soils.
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