Biochar
 2024
DOI: 10.1007/s42773-024-00318-1
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Biochar-supported zero-valent iron enhanced arsenic immobilization in a paddy soil: the role of soil organic matter

Shengsen Wang,
Wenjing Li,
Chengyu Ding
et al.

Abstract: Arsenic (As) detoxification in polluted soils by iron-based materials can be mediated by the endogenous soil organic matter (SOM), nevertheless the mechanisms remain unclear. Herein, endogenous SOM in a paddy soil was substantially removed to understand its roles on As immobilization by biochar-supported zero-valent iron (ZVI/BC). The results demonstrated that ZVI/BC application significantly decreased As bioavailability by 64.2% compared with the control soil under the anaerobic condition. XPS and HR-TEM sugg… Show more

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Dual regulation of As release and soil environment by Fe(Ⅱ) assisted steel slag and coal fly ash: Effects and potential mechanisms

Zhang,
Fu,
Li
et al. 2025
Journal of Hazardous Materials
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Dual regulation of As release and soil environment by Fe(Ⅱ) assisted steel slag and coal fly ash: Effects and potential mechanisms

Zhang,
Fu,
Li
et al. 2025
Journal of Hazardous Materials
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Synergistic effect between biochar and nitrate fertilizer facilitated arsenic immobilization in an anaerobic contaminated paddy soil

Jia,
Yu,
Chen
et al. 2024
Science of The Total Environment
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Engineered biochar for in-situ and ex-situ remediation of contaminants from soil and water

Hassan,
Wang,
Wu
et al. 2024
Science of The Total Environment
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