Effects of metal cation substitution on hexavalent chromium reduction by green rust

IF 0.9 4区 地球科学 Q4 GEOCHEMISTRY & GEOPHYSICS Geochemical Transactions Pub Date : 2020-02-14 DOI:10.1186/s12932-020-00066-8
Andrew N. Thomas, Elisabeth Eiche, Jörg Göttlicher, Ralph Steininger, Liane G. Benning, Helen M. Freeman, Dominique J. Tobler, Marco Mangayayam, Knud Dideriksen, Thomas Neumann
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引用次数: 11

Abstract

Chromium contamination is a serious environmental issue in areas affected by leather tanning and metal plating, and green rust sulfate has been tested extensively as a potential material for in situ chemical reduction of hexavalent chromium in groundwater. Reported products and mechanisms for the reaction have varied, most likely because of green rust’s layered structure, as reduction at outer and interlayer surfaces might produce different reaction products with variable stabilities. Based on studies of Cr(III) oxidation by biogenic Mn (IV) oxides, Cr mobility in oxic soils is controlled by the solubility of the Cr(III)-bearing phase. Therefore, careful engineering of green rust properties, i.e., crystal/particle size, morphology, structure, and electron availability, is essential for its optimization as a remediation reagent. In the present study, pure green rust sulfate and green rust sulfate with Al, Mg and Zn substitutions were synthesized and reacted with identical chromate (CrO42?) solutions. The reaction products were characterized by X-ray diffraction, pair distribution function analysis, X-ray absorption spectroscopy and transmission electron microscopy and treated with synthetic δ-MnO2 to assess how easily Cr(III) in the products could be oxidized. It was found that Mg substitution had the most beneficial effect on Cr lability in the product. Less than 2.5% of the Cr(III) present in the reacted Mg-GR was reoxidized by δ-MnO2 within 14?days, and the particle structure and Cr speciation observed during X-ray scattering and absorption analyses of this product suggested that Cr(VI) was reduced in its interlayer. Reduction in the interlayer lead to the linkage of newly-formed Cr(III) to hydroxyl groups in the adjacent octahedral layers, which resulted in increased structural coherency between these layers, distinctive rim domains, sequestration of Cr(III) in insoluble Fe oxide bonding environments resistant to reoxidation and partial transformation to Cr(III)-substituted feroxyhyte. Based on the results of this study of hexavalent chromium reduction by green rust sulfate and other studies, further improvements can also be made to this remediation technique by reacting chromate with a large excess of green rust sulfate, which provides excess Fe(II) that can catalyze transformation to more crystalline iron oxides, and synthesis of the reactant under alkaline conditions, which has been shown to favor chromium reduction in the interlayer of Fe(II)-bearing phyllosilicates.

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金属阳离子取代对绿锈还原六价铬的影响
铬污染是受皮革制革和金属电镀影响的地区严重的环境问题,绿锈硫酸盐作为地下水中六价铬原位化学还原的潜在材料已被广泛测试。报道的反应产物和反应机制各不相同,很可能是因为绿锈的层状结构,因为在外层和层间表面的还原可能产生不同的反应产物,具有不同的稳定性。基于生物源Mn (IV)氧化物氧化Cr(III)的研究,Cr在含氧土壤中的迁移受含Cr(III)相溶解度的控制。因此,精心设计绿锈性能,即晶体/粒度,形态,结构和电子可用性,对于其作为修复试剂的优化至关重要。本研究合成了纯绿锈硫酸盐和取代Al、Mg和Zn的绿锈硫酸盐,并与相同的铬酸盐(CrO42?)溶液反应。通过x射线衍射、对分布函数分析、x射线吸收光谱和透射电镜对反应产物进行了表征,并用合成的δ-MnO2进行了处理,以评价产物中Cr(III)的氧化性。结果表明,Mg取代对产物中Cr的稳定性影响最大。δ-MnO2在14分钟内将Mg-GR中小于2.5%的Cr(III)再氧化。x射线散射和吸收分析表明,Cr(VI)在中间层中被还原。层间的还原导致新形成的Cr(III)与相邻八面体层中的羟基连接,从而增加了这些层之间的结构一致性,独特的边缘结构域,Cr(III)在不溶性铁氧化物结合环境中被隔离,抵抗再氧化和部分转化为Cr(III)取代的铁氧基。基于本研究的绿锈硫酸盐还原六价铬的研究结果和其他研究结果,还可以进一步改进该修复技术,将铬酸盐与大量过量的绿锈硫酸盐反应,提供过量的铁(II),可以催化转化为更多的结晶氧化铁,并在碱性条件下合成反应物,这已被证明有利于含铁(II)层状硅酸盐中间层的铬还原。
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来源期刊
Geochemical Transactions
Geochemical Transactions 地学-地球化学与地球物理
CiteScore
3.70
自引率
4.30%
发文量
2
审稿时长
>12 weeks
期刊介绍: Geochemical Transactions publishes high-quality research in all areas of chemistry as it relates to materials and processes occurring in terrestrial and extraterrestrial systems.
期刊最新文献
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