纳滤
膜
零电荷点
选择性
电解质
表面电荷
唐南势
导电体
化学
化学工程
离子键合
化学物理
水溶液
材料科学
离子
有机化学
复合材料
电极
物理化学
工程类
生物化学
催化作用
作者
Alexey A. Kapitonov,Ilya I. Ryzhkov
出处
期刊:Membranes
[Multidisciplinary Digital Publishing Institute]
日期:2023-06-12
卷期号:13 (6): 596-596
被引量:8
标识
DOI:10.3390/membranes13060596
摘要
Electrically conductive membranes are a class of stimuli-responsive materials, which allow the adjustment of selectivity for and the rejection of charged species by varying the surface potential. The electrical assistance provides a powerful tool for overcoming the selectivity-permeability trade-off due to its interaction with charged solutes, allowing the passage of neutral solvent molecules. In this work, a mathematical model for the nanofiltration of binary aqueous electrolytes by an electrically conductive membrane is proposed. The model takes into account the steric as well as Donnan exclusion of charged species due to the simultaneous presence of chemical and electronic surface charges. It is shown that the rejection reaches its minimum at the potential of zero charge (PZC), where the electronic and chemical charges compensate for each other. The rejection increases when the surface potential varies in positive and negative directions with respect to the PZC. The proposed model is successfully applied to a description of experimental data on the rejection of salts and anionic dyes by PANi-PSS/CNT and MXene/CNT nanofiltration membranes. The results provide new insights into the selectivity mechanisms of conductive membranes and can be employed to describe electrically enhanced nanofiltration processes.
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