高铁酸盐（VI、V 和 IV）氧化无机污染物的动力学和机制：综述。

Oxidation of inorganic contaminants by ferrates (VI, V, and IV)--kinetics and mechanisms: a review.

机构信息

Chemistry Department and Center of Ferrate Excellence, Florida Institute of Technology, 150 West University Boulevard, Melbourne, FL 32901, USA.

出版信息

J Environ Manage. 2011 Apr;92(4):1051-73. doi: 10.1016/j.jenvman.2010.11.026. Epub 2010 Dec 28.

DOI:10.1016/j.jenvman.2010.11.026

PMID:21193263

Abstract

Inorganic contaminants are found in water, wastewaters, and industrial effluents and their oxidation using iron based oxidants is of great interest because such oxidants possess multi-functional properties and are environmentally benign. This review makes a critical assessment of the kinetics and mechanisms of oxidation reactions by ferrates (Fe(VI)O(4)(2-), Fe(V)O(4)(3-), and Fe(IV)). The rate constants (k, M(-1) s(-1)) for a series of inorganic compounds by ferrates are correlated with thermodynamic oxidation potentials. Correlations agree with the mechanisms of oxidation involving both one-electron and two-electron transfer processes to yield intermediates and products of the reactions. Case studies are presented which demonstrate that inorganic contaminants can be degraded in seconds to minutes by ferrate(VI) with the formation of non-toxic products.

摘要

无机污染物存在于水、废水和工业废水中，使用基于铁的氧化剂对其进行氧化具有很大的研究兴趣，因为这类氧化剂具有多功能性质且对环境友好。本综述对高铁酸盐（Fe(VI)O(4)(2-), Fe(V)O(4)(3-), 和 Fe(IV))氧化反应的动力学和机理进行了严格评估。高铁酸盐氧化一系列无机化合物的速率常数（k，M(-1) s(-1)）与热力学氧化电势相关联。这些关联与涉及单电子和双电子转移过程的氧化机理一致，从而产生反应的中间体和产物。案例研究表明，无机污染物可以在几秒钟到几分钟内被高铁酸盐（VI）降解，同时生成无毒产物。

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高铁酸盐（VI、V 和 IV）氧化无机污染物的动力学和机制：综述。

Oxidation of inorganic contaminants by ferrates (VI, V, and IV)--kinetics and mechanisms: a review.

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