采用金属-有机骨架催化高级氧化技术的水除污：综述。

Water depollution using metal-organic frameworks-catalyzed advanced oxidation processes: A review.

机构信息

Program for the Environment and Sustainability, Department of Environmental and Occupational Health, School of Public Health, Texas A&M University, 212 Adriance Lab Road, 1266 TAMU College Station, TX 77843, USA.

出版信息

J Hazard Mater. 2019 Jun 15;372:3-16. doi: 10.1016/j.jhazmat.2017.09.043. Epub 2017 Sep 28.

DOI:10.1016/j.jhazmat.2017.09.043

PMID:28993029

Abstract

This paper presents a review on the environmental applications of metal-organic frameworks (MOFs), which are inorganic-organic hybrid highly porous crystalline materials, prepared from metal ion/clusters and multidentate organic ligands. The emphases are made on the enhancement of the performance of advanced oxidation processes (AOPs) (photocatalysis, Fenton reaction methods, and sulfate radical (SO)-mediated oxidations) using MOFs materials. MOFs act as adsorption and light absorbers, leading to superior performance of photocatalytic processes. More recent examples of photocatalytic degradation of dyes are presented. Additionally, it is commonly shown that Fe-based MOFs exhibited excellent catalytic performance on the Fenton-based and SO-mediated oxidations of organic pollutants (e.g., dyes, phenol and pharmaceuticals). The significantly enhanced generation of reactive species such as OH and/or SO by both homogeneous and heterogeneous catalysis was proposed as the possible mechanism for water depollution. Based on the existing literature, the challenge and future perspectives in MOF-based AOPs are addressed.

摘要

本文综述了金属-有机骨架（MOFs）在环境中的应用，MOFs 是由金属离子/簇和多齿有机配体制备的无机-有机杂化高多孔晶体材料。重点介绍了使用 MOFs 材料增强高级氧化工艺（AOPs）（光催化、芬顿反应法和硫酸根（SO）介导的氧化）的性能。MOFs 可作为吸附剂和光吸收剂，从而提高光催化过程的性能。本文还介绍了染料的光催化降解的最新实例。此外，通常表明基于 Fe 的 MOFs 在基于芬顿的和 SO 介导的有机污染物（例如染料、苯酚和药物）的氧化中表现出优异的催化性能。提出了均相和多相催化下活性物质（如 OH 和/或 SO）的生成显著增强是水净化的可能机制。基于现有文献，讨论了 MOF 基 AOPs 的挑战和未来展望。

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采用金属-有机骨架催化高级氧化技术的水除污：综述。

Water depollution using metal-organic frameworks-catalyzed advanced oxidation processes: A review.

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