渗透
膜
反渗透
界面聚合
聚酰胺
化学工程
海水淡化
聚合
废水
材料科学
纳滤
膜技术
胺气处理
水处理
化学
渗透
正渗透
单体
聚合物
半透膜
选择性
渗透力
色谱法
工业废水处理
微咸水
高分子化学
作者
Shenghua Zhou,Lu Elfa Peng,Wenyu Liu,Hao Guo,Chuyang Y. Tang
标识
DOI:10.1038/s41467-025-64056-z
摘要
Polyamide reverse osmosis (RO) membranes are widely used in seawater desalination and wastewater reuse, yet often fail to remove small toxic micropollutants. Herein, we develop a thermal-intensified interfacial polymerization (TIP) strategy to fabricate highly selective RO membranes against various micropollutants. Facile heating accelerates amine monomer diffusion, intensifying interfacial polymerization to form a highly crosslinked polyamide membrane. The resultant TIP membrane achieves rejection of 90.8%, 98.0%, and > 99% for boron, arsenite, organic micropollutants at neutral pH, respectively. Meanwhile, high temperature facilitates interfacial degassing and promotes the formation of more extensive nanovoids within the polyamide. These nanovoids increase membrane surface area and optimize water transport pathways, thereby boosting water permeance. The combination of high solute rejection and water permeance enables the membrane to achieve high water-micropollutant selectivity (e.g., water-boron). Our study demonstrates that TIP technique holds a great promise to fabricate ultra-selective polyamide membranes for desalination and wastewater reuse.
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