用于水处理高级氧化工艺的钙铜钛矿材料

CaCuTiO Perovskite Materials for Advanced Oxidation Processes for Water Treatment.

作者信息

Makhoul Elissa, Boulos Madona, Cretin Marc, Lesage Geoffroy, Miele Philippe, Cornu David, Bechelany Mikhael

机构信息

Institut Européen des Membranes, IEM, UMR 5635, Centre National de la Recherche Scientifique (CNRS), University Montpellier, ENSCM, Place Eugène Bataillon, 34095 Montpellier, France.

Laboratoire de Chimie Physique des Matériaux (LCPM/PR2N), EDST, Faculté des Sciences II, Département de Chimie, Université Libanaise, Fanar P.O. Box 90656, Lebanon.

出版信息

Nanomaterials (Basel). 2023 Jul 20;13(14):2119. doi: 10.3390/nano13142119.

DOI:10.3390/nano13142119

PMID:37513130

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC10383651/

Abstract

The many pollutants detected in water represent a global environmental issue. Emerging and persistent organic pollutants are particularly difficult to remove using traditional treatment methods. Electro-oxidation and sulfate-radical-based advanced oxidation processes are innovative removal methods for these contaminants. These approaches rely on the generation of hydroxyl and sulfate radicals during electro-oxidation and sulfate activation, respectively. In addition, hybrid activation, in which these methods are combined, is interesting because of the synergistic effect of hydroxyl and sulfate radicals. Hybrid activation effectiveness in pollutant removal can be influenced by various factors, particularly the materials used for the anode. This review focuses on various organic pollutants. However, it focuses more on pharmaceutical pollutants, particularly paracetamol, as this is the most frequently detected emerging pollutant. It then discusses electro-oxidation, photocatalysis and sulfate radicals, highlighting their unique advantages and their performance for water treatment. It focuses on perovskite oxides as an anode material, with a particular interest in calcium copper titanate (CCTO), due to its unique properties. The review describes different CCTO synthesis techniques, modifications, and applications for water remediation.

摘要

水中检测到的多种污染物是一个全球性环境问题。新兴的和持久性有机污染物尤其难以用传统处理方法去除。电氧化和基于硫酸根自由基的高级氧化工艺是去除这些污染物的创新方法。这些方法分别依赖于电氧化过程中羟基自由基的生成以及硫酸根的活化。此外，将这些方法结合起来的混合活化很有意思，因为羟基自由基和硫酸根自由基具有协同效应。混合活化去除污染物的效果会受到多种因素的影响，尤其是阳极使用的材料。本综述聚焦于各种有机污染物。不过，它更侧重于药物污染物，特别是对乙酰氨基酚，因为这是最常检测到的新兴污染物。然后讨论了电氧化、光催化和硫酸根自由基，突出了它们的独特优势及其在水处理中的性能。由于其独特性能，本综述重点关注钙钛矿氧化物作为阳极材料，尤其对钛酸钙铜（CCTO）感兴趣。该综述描述了不同的CCTO合成技术、改性及其在水修复中的应用。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/2953/10383651/29f78e2b0b7c/nanomaterials-13-02119-g009.jpg

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用于水处理高级氧化工艺的钙铜钛矿材料

CaCuTiO Perovskite Materials for Advanced Oxidation Processes for Water Treatment.

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