Titania-activated persulfate for environmental remediation: the-state-of-the-art

Catalysis Reviews Pub Date : 2021-11-19 DOI:10.1080/01614940.2021.1996776

M. Sabri, A. Habibi-Yangjeh, Shima Rahim Pouran, Chundong Wang

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引用次数: 81

Abstract

ABSTRACT In the last decade, a considerable body of literature has been devoted to advanced oxidation processes encompassed peroxy-sulfur species owing to their capacity to generate highly active radicals. These species fulfill two main objectives in AOPs: act as electron-scavengers and give rise to sulfate radicals, which collectively facilitate the oxidation of organic pollutants. This review provides data on the recent strategies and practices aimed to enhance the photocatalytic performance of TiO2 where persulfate/peroxymonosulfate species are supplemented. The mechanism of persulfate activation, direct and interactive effects on the photoactivity of TiO2 nanostructures, and subsequent degradation efficiencies of agrochemicals, dyes, pharmaceuticals, petrochemicals, and pathogenic microorganisms were studied and thoroughly discussed. The data on several titania-based nanostructures, the best operational conditions, and the removal outputs in the presence of oxidants and electron acceptors, in particular, persulfate ions are summarized, depicted, and tabulated. As per reviewed literature, titania-persulfate integration can effectively address the environmental implications of organic pollutants.

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二氧化钛活化过硫酸盐用于环境修复:最先进的

在过去的十年中，相当多的文献已经致力于高级氧化过程，包括过氧硫物种，因为它们能够产生高活性自由基。这些物种在AOPs中实现了两个主要目标:作为电子清除剂和产生硫酸盐自由基，它们共同促进有机污染物的氧化。本文综述了近年来通过补充过硫酸盐/过氧单硫酸盐来提高TiO2光催化性能的策略和实践。研究并深入讨论了过硫酸盐活化的机理、对TiO2纳米结构光活性的直接和相互作用，以及随后对农药、染料、药品、石化产品和病原微生物的降解效率。本文总结了几种钛基纳米结构的数据，最佳操作条件，以及在氧化剂和电子受体，特别是过硫酸盐存在下的去除输出。根据文献综述，二氧化钛-过硫酸钛一体化可以有效地解决有机污染物的环境影响。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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Catalysis Reviews

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