激进的
污染物
降级(电信)
渗透
膜
过滤(数学)
聚乙烯醇
废水
化学
聚合物
化学工程
有机化学
生物化学
环境工程
环境科学
工程类
计算机科学
数学
统计
电信
作者
F.-F. Li,Y. Y. Mi,Ronn Zhi Ning Chen,Wei Liu,Jian-Chao Wu,Deyin Hou,Min Yang,Sui Zhang
标识
DOI:10.1073/pnas.2315688121
摘要
Integrating reactive radicals into membranes that resemble biological membranes has always been a pursuit for simultaneous organics degradation and water filtration. In this research, we discovered that a radical polymer (RP) that can directly trigger the oxidative degradation of sulfamethozaxole (SMX). Mechanistic studies by experiment and density functional theory simulations revealed that peroxyl radicals are the reactive species, and the radicals could be regenerated in the presence of O 2 . Furthermore, an interpenetrating RP network membrane consisting of polyvinyl alcohol and the RP was fabricated to demonstrate the simultaneous filtration of large molecules in the model wastewater stream and the degradation of ~ 85% of SMX with a steady permeation flux. This study offers valuable insights into the mechanism of RP-triggered advanced oxidation processes and provides an energy-efficient solution for the degradation of organic compounds and water filtration in wastewater treatment.
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