液体电解质及含电解质材料的电阻测量

K. V. Dobrego, M. Chumachenko, O. Boiprav, N. Grinchik, H. A. Pukhir
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引用次数: 0

摘要

电解质和含电解质的非均质材料的电导率测量伴随着许多物理和电化学过程,使测量和数据解释变得复杂。因此,测量这样一个系统的电导率是一个困难的,并没有最终解决的问题。本文以非均相电解体系“木质素-氯化钙水溶液”为例,对这种新的电解体系电阻测量方法进行了验证和测试。该方法基于对电解槽上不同电压(DC)下电解系统的电阻的测量,并考虑到电极和电解材料边界上产生的体积电荷和势垒,从而对所获得的数据进行近似。对极限小电流的电阻进行外推,可以得到电解系统有源电阻的特征值。与基于交流测量的方法相比,该方法技术简单,价格低廉,具有几个优点。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Measurement of Electrical Resistance of Liquid Electrolytes and Materials Containing Them
Measurement of the electrical conductivity of electrolytes and heterogeneous materials containing them is accompanied by numerous physical and electrochemical processes, complicating measuring and interpretation of data. As a result, the measurement of the electrical conductivity of such a system is a difficult and not finally resolved problem. The new method of resistance measurement of the electrolytic systems is substantiated and tested on example of heterogeneous electrolytic system “lignin-calcium chloride water solution” in this article. The method is based on measurement of resistance of the electrolytic system at different voltages (DC) on the cell and the consequent approximation of the acquired data taking into consideration volume charges and potential barriers arising on the boarders of electrodes and electrolytic materials. Extrapolation of the resistance to the limiting small current lets one obtain a characteristic value of the active resistance of the electrolytic system. The method is technically simple, inexpensive and has several advantages compared to the methods based on AC measurements.
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