Analytical description of the ionic relaxation in the presence of surface adsorption

Journal of Physics A: Mathematical and Theoretical Pub Date : 2024-06-05 DOI:10.1088/1751-8121/ad54a6

Giovanni Barbero, Y. Aliyev, A. M. Scarfone

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Abstract

The temporal evolution of the surface electric field in a cell in the presence of ionic adsorption is investigated. The analysis is performed in the framework of the Poisson-Nernst-Planck model, based on the conservation of particles and the equation of Poisson for the actual electric potential across the cell, assuming that only the ions of a given sign are mobile. The adsorption is described using a kinetic equation of Langmuir's type. The simple case of small adsorption is considered, in which the saturation effect can be neglected, and the fundamental equations of the model can be linearized. In this framework, the effective relaxation time describing the dynamics of the system is evaluated, as well as the profiles of the ions and the electric field. The case in which the sample is a half-space is first considered. A more realistic situation where the sample is a slab of thickness $d$, limited by two identical or different electrodes, is analyzed too. The difference in electric potential due to the adsorption phenomenon between the electrodes is determined. Our analysis shows that its time dependence, when the electrodes have different adsorption properties, is not monotonic.

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存在表面吸附时离子弛豫的分析描述

研究了存在离子吸附的细胞中表面电场的时间演变。分析是在泊松-奈恩斯特-普朗克模型的框架内进行的，该模型基于粒子守恒和整个细胞实际电势的泊松方程，假设只有给定符号的离子是流动的。吸附是通过朗缪尔型动力学方程来描述的。我们考虑了吸附量较小的简单情况，在这种情况下，饱和效应可以忽略，模型的基本方程可以线性化。在此框架下，对描述系统动态的有效弛豫时间以及离子和电场的剖面进行了评估。首先考虑的是样品为半空间的情况。此外，还分析了一种更现实的情况，即样品是厚度为 $d$ 的板坯，由两个相同或不同的电极限制。电极之间的吸附现象导致的电势差被确定下来。我们的分析表明，当电极具有不同的吸附特性时，其时间依赖性不是单调的。

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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Journal of Physics A: Mathematical and Theoretical

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