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W3202048441 abstract "The dissimilatory Fe(III)-reducing bacteria play a significant role in the mobility of antimony (Sb) under reducing environment. Sb-rich smelting slag is iron (Fe)-containing antimonic mine waste, which is one of the main sources of antimony pollution. In this study, the soluble antimony reacted with Fe(III) by S. oneidensis (Shewanella oneidensis strain MR-1) was performed in reduction condition, then the dissolution behavior of the Sb-rich smelting slag with S. oneidensis was investigated. The results showed that the released Sb was immobilized by S. oneidensis and the strain adsorbed Sb(III) preferentially. Sb(V) can be reduced by S. oneidensis without aqueous Fe. In the presence of Fe(III), S. oneidensis mediated Sb bio-adsorption and the chemical redox of Sb-Fe occurred simultaneously. Sb was co-precipitated with Fe to form the Sb(V)-O-Fe(III) secondary mineral, which was identified as the bidentate mononuclear edge-sharing structure by extended X-ray absorption fine structure (EXAFS) analysis. These results suggest that S. oneidensis has a positive effect on the immobilization and minimizing toxicity of antimony in anoxic soil and groundwater, which provides a theoretical basis for the treatment of antimony contamination." @default.
W3202048441 created "2021-10-11" @default.
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W3202048441 date "2022-03-01" @default.
W3202048441 modified "2023-10-16" @default.
W3202048441 title "Reduction of antimony mobility from Sb-rich smelting slag by Shewanella oneidensis: Integrated biosorption and precipitation" @default.
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W3202048441 cites W1964963456 @default.
W3202048441 cites W1973709276 @default.
W3202048441 cites W1988637513 @default.
W3202048441 cites W1994328828 @default.
W3202048441 cites W1995315423 @default.
W3202048441 cites W2006626900 @default.
W3202048441 cites W2012213912 @default.
W3202048441 cites W2016419126 @default.
W3202048441 cites W2020169682 @default.
W3202048441 cites W2028492105 @default.
W3202048441 cites W2037998592 @default.
W3202048441 cites W2046568229 @default.
W3202048441 cites W2047371588 @default.
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W3202048441 cites W2064469671 @default.
W3202048441 cites W2070808944 @default.
W3202048441 cites W2070912856 @default.
W3202048441 cites W2071362227 @default.
W3202048441 cites W2078797800 @default.
W3202048441 cites W2081021910 @default.
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W3202048441 cites W2104785052 @default.
W3202048441 cites W2132700284 @default.
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W3202048441 cites W2144349737 @default.
W3202048441 cites W2144465161 @default.
W3202048441 cites W2155056225 @default.
W3202048441 cites W2166771548 @default.
W3202048441 cites W2190811668 @default.
W3202048441 cites W2196728309 @default.
W3202048441 cites W2196762740 @default.
W3202048441 cites W2251729972 @default.
W3202048441 cites W2273685899 @default.
W3202048441 cites W2325810952 @default.
W3202048441 cites W2328375706 @default.
W3202048441 cites W2337217389 @default.
W3202048441 cites W2400360019 @default.
W3202048441 cites W2412235380 @default.
W3202048441 cites W2461451335 @default.
W3202048441 cites W2568355932 @default.
W3202048441 cites W2738700619 @default.
W3202048441 cites W2789694209 @default.
W3202048441 cites W2806867471 @default.
W3202048441 cites W2807976061 @default.
W3202048441 cites W2883126639 @default.
W3202048441 cites W2901808061 @default.
W3202048441 cites W2901886915 @default.
W3202048441 cites W2906772211 @default.
W3202048441 cites W2915785777 @default.
W3202048441 cites W2997395084 @default.
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W3202048441 cites W3001840612 @default.
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W3202048441 cites W3119056518 @default.
W3202048441 cites W3135808890 @default.
W3202048441 cites W3138031414 @default.
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W3202048441 doi "https://doi.org/10.1016/j.jhazmat.2021.127385" @default.
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