聚合物离子交换双极膜的电化学表征

S. Mafé, P. Ramírez
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引用次数: 100

摘要

双极膜(BM)是一种由一个阳离子和一个阴离子交换层串联而成的层状结构。聚合物脑转移物由于其独特的电化学性质,在许多工业过程中(例如,使用双极电渗析进行环境清洁技术和处理盐水废水)提供了有前途的应用。这些特性中最重要的是电场增强(EFE)水解离,当电流被迫通过膜时产生。这种现象发生在BM的双极结,它与离子输运的耦合,虽然仍然知之甚少,是BM的大多数潜在应用的基础。在这篇综述中,我们将重点介绍近年来关于脑转移物的物理化学研究,并对其电化学性能进行概述,重点介绍理论和实验两个方面。我们将首先在两个离子交换层之间的双极结处建立双电层模型,然后描述在该结处发生的EFE水解离。随后,我们将详细介绍一个完整的离子传输和水解离耦合的理论模型,并表明该模型能够解释通过膜电位、电流-电压曲线和阻抗测量在聚合物脑转移物的电化学表征中观察到的实验趋势。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Electrochemical characterization of polymer ion-exchange bipolar membranes

A bipolar membrane (BM) is a layered structure composed of one cation and one anion ion-exchange layers joined together in series. Polymer BMs offer promising applications for many industrial processes (e. g., the use of bipolar electrodialysis for environmentally clean technologies and the treatment of salt-water effluents) because of their unique electrochemical properties. The most important of these properties is the electric field enhanced (EFE) water dissociation which arises when an electric current is forced through the membrane. This phenomenon occurs at the bipolar junction of the BM, and its coupling with ion transport, though still poorly understood, is the basis of most of the potential applications of BMs. In this review, we will focus on recent work concerning the physical chemistry of BMs and give a general overview of their electrochemical properties, emphasizing both theoretical and experimental aspects. We will model first the electric double layer at the bipolar junction between the two ion-exchange layers, and describe then the EFE water dissociation occurring in this junction. Later, we will present in detail a complete theoretical model for the coupling of ion transport and water dissociation in BMs, and show that this model is able to explain the experimental trends observed in the electrochemical characterization of polymer BMs by means of membrane potential, current–voltage curve, and impedance measurements.

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