Modeling the Influence of Solvation on the Electrochemical Double Layer of Salt / Solvent Mixtures

Constantin Schwetlick, Max Schammer, Arnulf Latz, Birger Horstmann
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Abstract

Modelling electrolytes accurately on both a nanoscale and cell level can contribute to improving battery chemistries.[Armand and Tarascon, Nature, 2008, 451, 652-657] We previously presented a thermodynamic continuum model for electrolytes.[arXiv:2010.14915] In this paper we include solvation interactions between the ions and solvent, which alter the structure of the electochemical double layer (EDL). We are able to combine a local solvation model -- permitting examination of the interplay between electric forces and the ion-solvent binding -- with a full electrolyte model. Using this, we can investigate double layer structures for a wide range of electrolytes, especially including highly concentrated solutions. We find that some of the parameters of our model significantly affect the solvent concentration at the electrode surface, and thereby the rate of solvent decomposition. Firstly, an increased salt concentration weakens the solvation shells, making it possible to strip the solvent in the EDL before the ions reach the surface. The strength of the ion-solvent interaction also affects at which potential difference the solvation shells removed. We are therefore able to qualitatively predict EDL structures for different electrolytes based on parameters like molecule size, solvent binding energy and salt concentration.
模拟溶解对盐/溶剂混合物电化学双电层的影响
Armand和Tarascon,《自然》,2008,451, 652-657]我们之前提出了一个电解质热力学连续模型。[arXiv:2010.14915]在本文中,我们加入了离子与溶剂之间的溶解作用,这种作用改变了电化学双电层(EDL)的结构。我们能够将局部溶解模型与全电解质模型结合起来--从而能够检验电场力与离子-溶剂结合之间的相互作用。利用这种方法,我们可以研究多种电解质的双电层结构,特别是包括高浓度溶液在内的双电层结构。我们发现,模型的某些参数会显著影响电极表面的溶剂浓度,进而影响溶剂的分解速率。首先,盐浓度的增加会减弱溶解壳,从而有可能在离子到达电极表面之前将溶剂从电极表面剥离。离子与溶剂相互作用的强度也会影响溶壳在哪个电位差下脱落。因此,我们能够根据分子大小、溶剂结合能和盐浓度等参数,定性预测不同电解质的 EDL 结构。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
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