Progress in the application of surface engineering methods in immobilizing TiO2 and ZnO coatings for environmental photocatalysis

Catalysis Reviews Pub Date : 2021-10-06 DOI:10.1080/01614940.2021.1983066

A. H. Navidpour, A. Hosseinzadeh, John L. Zhou, Zhenguo Huang

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引用次数: 14

Abstract

ABSTRACT Photocatalysis is widely used for the degradation of organic pollutants, with TiO2 and ZnO as the best candidates with unique properties. However, agglomeration and recycling are major challenges in practical photocatalysis applications. Advanced deposition processes can provide nanotubular or hierarchical structures that are more promising than suspended particles. More importantly, higher efficiency of photoelectrocatalysis than photocatalysis for the degradation of persistent organic pollutants including perfluorooctanoic acid (PFOA) necessitates catalyst immobilization. Photoelectrocatalysis exhibited remarkably higher efficiency (56.1%) than direct photolysis (15.1%), electrocatalysis (5.0%) and photocatalysis (18.1%) for PFOA degradation. This paper aims to review the progress in the application of anodizing and thermal spraying as two major industrial surface engineering processes to bridge the gap between laboratorial and practical photocatalysis technology. Overall, thermal spraying is considered as one of the most efficient methods for the deposition of TiO2 and ZnO photocatalytic films. Graphical Abstract

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表面工程方法在环境光催化固定TiO2和ZnO涂层中的应用进展

摘要光催化在有机污染物的降解中得到了广泛的应用，TiO2和ZnO是具有独特性能的最佳候选材料。然而，在实际的光催化应用中，团聚和回收是主要的挑战。先进的沉积工艺可以提供比悬浮粒子更有前途的纳米管或分层结构。更重要的是，在降解包括全氟辛酸(PFOA)在内的持久性有机污染物方面，光电催化比光催化效率更高，因此需要固定化催化剂。光电催化对PFOA的降解效率(56.1%)显著高于直接光解(15.1%)、电催化(5.0%)和光催化(18.1%)。本文旨在综述阳极氧化和热喷涂作为两种主要的工业表面工程工艺的应用进展，以弥合实验室与实际光催化技术之间的差距。总的来说，热喷涂被认为是制备TiO2和ZnO光催化膜最有效的方法之一。图形抽象

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Catalysis Reviews

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