Pivotal roles of nanoscale zerovalent iron supported on metal-organic framework material in cadmium (II) migration and transformation in soil

Zixuan Chen, Zhengchao Zhang, Peng Wang, Tingyi Liu
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Abstract

Abstract Cadmium (Cd) contamination in soils is of great concern, and therefore the development of effective remediation technologies for cadmium contamination is urgent. In our study, nano zero-valent iron (NZVI) supported by metal-organic framework (MOF) materials (MOF-NZVI) were prepared using NaBH4 and FeCl3 to try to solve the soil Cd remediation problem. Herein, the effects and the mechanism of MOF-NZVI for the immobilization of Cd in contaminated soil was investigated. The results showed that MOF-NZVI was capable of converting Cd in soil from weak acid extractable and reducible fractions to oxidizable and residual states, thus effectively reducing the toxicity of Cd in soil. FTIR and XRD analysis confirmed that the dominant reaction mechanism between MOF-NVZI and Cd is adsorption with complexation, and the stabilization of Cd is achieved by the formation of compounds such as FeOCdOH.
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金属-有机骨架材料负载的纳米级零价铁在镉(II)在土壤中的迁移转化中的关键作用
土壤镉污染问题备受关注,开发有效的镉污染修复技术刻不容缓。本研究以NaBH4和FeCl3为载体,制备了金属有机骨架材料(MOF)负载的纳米零价铁(MOF-NZVI),试图解决土壤镉的修复问题。本文研究了MOF-NZVI对污染土壤中镉的固定化作用及其机理。结果表明,MOF-NZVI能够将土壤中的Cd从弱酸可提取和可还原组分转化为氧化态和残留态,从而有效降低了土壤中Cd的毒性。FTIR和XRD分析证实MOF-NVZI与Cd的主要反应机理是络合吸附,Cd的稳定是通过形成FeOCdOH等化合物实现的。
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