On the Gouy–Chapman–Stern model of the electrical double-layer structure with a generalized Boltzmann factor

无量纲量 泊松-玻尔兹曼方程 反向 物理 结构因子 统计物理学 玻尔兹曼分布 电荷密度 化学 离子 热力学 量子力学 数学 凝聚态物理 几何学
作者
Anis Allagui,H. Benaoum,O. Olendski
出处
期刊:Physica D: Nonlinear Phenomena [Elsevier BV]
卷期号:582: 126252-126252 被引量:65
标识
DOI:10.1016/j.physa.2021.126252
摘要

The classical treatment of the electrical double-layer (EDL) structure at a planar metal/electrolyte junction via the Gouy–Chapman–Stern (GCS) approach is based on the Poisson equation relating the electrostatic potential to the net mean charge density. The ions concentration in the diffuse layer are assumed to follow the Boltzmann distribution law, i.e. ∝exp(−ψ̃) where ψ̃ is the dimensionless electrostatic potential. However, even in stationary equilibrium in which variables are averaged over a large number of elementary stochastic events, deviations from the mean-value are expected. In this study we evaluate the behavior of the EDL by assuming some small perturbations superposed on top of its Boltzmann distribution of ion concentrations using the Tsallis nonextensive statistics framework. With this we assume the ion concentrations to be proportional to [1−(1−q)ψ̃]1/(1−q)=expq(−ψ̃) with q being a real parameter that characterizes the system’s statistics. We derive analytical expression and provide computational results for the overall differential capacitance of the EDL structure, which, depending on the values of the parameter q can show both the traditional inverse bell-shaped curves for aqueous solutions and bell curves observed with ionic liquids.
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