降级(电信)
生化工程
主流
纳米技术
机制(生物学)
计算机科学
材料科学
工程类
电信
物理
哲学
神学
量子力学
作者
Lu Zhou,Linghui Meng,Haowei Jia,Yile Lu,Tianyue Liang,Yuan Yu,Chao Liu,Zekun Dong,Long Hu,Peiyuan Guan,Yingze Zhou,Mengyao Li,Tao Wan,Zhaojun Han,Dewei Chu
标识
DOI:10.1002/adsu.202300652
摘要
Abstract Piezocatalysis is attracting extensive attention in recent years because it can directly convert mechanical energy from the ambient environment (such as tiny vibrations and noise) into piezopotential for catalytic activities. Dyes are widely used in diverse industries, including paper, printing, and textiles, which cause serious environmental problems due to their persistence and toxicity. Unlike traditional catalysts that rely on chemical reactions to drive dye degradation, piezocatalysts offer a sustainable and cost‐effective alternative to breaking down complex molecules through creating highly reactive species, which have shown a significant promise in the treatment of organic pollutants in wastewater. In this review, the basic principles of piezocatalysis are first outlined, specifically describing two ubiquitous forms of driving force in nature. Following the catalytic mechanism, the current mainstream piezocatalytic materials are classified into two categories: organic and inorganic materials with detailed discussions. Moreover, after investigating and analyzing previous literature, effective strategies for improving piezocatalytic efficiency for dye degradation are systematically compared and summarized. In the end, current issues that need to be addressed in the future as well as potential research directions related to piezocatalysis are prospected. This work provides an insight into solving current issues to advance the piezocatalysts.
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