膜
催化作用
水处理
过硫酸盐
降级(电信)
化学工程
膜技术
污染物
化学
材料科学
臭氧
污水处理
纳米技术
环境科学
废物管理
常规治疗
饮用水净化
膜反应器
作者
Jun Dai,Yan Zhuang,Kinjal J. Shah,Yong-Jun Sun
出处
期刊:Catalysts
[Multidisciplinary Digital Publishing Institute]
日期:2025-11-14
卷期号:15 (11): 1081-1081
标识
DOI:10.3390/catal15111081
摘要
For effective water purification, the combination of membrane separation and catalytic degradation technologies not only permits continuous pollutant degradation but also successfully reduces membrane fouling. In recent years, catalytic membranes (CMs) have garnered a lot of interest in the water treatment industry. The main benefits of CMs are methodically explained in this review, emphasizing the synergistic effect of membrane separation and catalysis. These benefits include stable catalyst loading achieved through membrane structure manipulation, nanoconfinement, and effective degradation of organic pollutants. The application of catalytic membranes in water treatment is then thoroughly summarized, and they are separated into five main groups based on their unique catalytic reaction mechanisms: ozone catalytic membranes, photocatalytic membranes, electrocatalytic membranes, Fenton-type catalytic membranes, and persulfate catalytic membranes. The mechanisms and performance characteristics of each kind of CM are looked at in greater detail. Finally, research directions and future prospects for water treatment using catalytic membranes are proposed. This review provides recommendations for future research and development to ensure the effective use of catalytic membranes in water treatment, in addition to providing a thorough examination of the advancements made in their application in the treatment of various wastewaters.
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