An Ionic Boundary Layer near the Lithium Niobate Surface in the Proton Exchange Process

IF 1.1 Q4 ELECTROCHEMISTRY

Surface Engineering and Applied Electrochemistry Pub Date : 2023-07-05 DOI:10.3103/S1068375523030055

V. A. Demin, M. I. Petukhov, R. S. Ponomarev

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Abstract

The paper presents a theoretical study of the behavior of an ionic boundary layer that occurs in the process of a steady proton exchange in a benzoic acid melt contacting with the surface of a lithium niobate crystal. The penetration of protons into a crystal promotes the injection of oppositely charged ions (lithium and benzoate) from the surface of lithium niobate in the surrounding acid. The transfer of the reaction products and their interaction in benzoic acid is studied numerically. The proposed mathematical model includes the effect of recombination in the volume so that the ions with different charge signs approach each other and form a neutral lithium benzoate. The results of the numerical simulations demonstrate that there are exponential-like concentration profiles of two types of ions, and a non-uniform electric field and pressure distributions develop in the boundary layer under steady-state conditions. In this process, the total charge of the system remains zero. It is shown how the concentration, recombination, and activity of lithium and benzoate ions and the diffusion coefficients affect the profile shapes and the process intensity.

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质子交换过程中铌酸锂表面附近的离子边界层

本文对与铌酸锂晶体表面接触的苯甲酸熔体中稳定质子交换过程中离子边界层的行为进行了理论研究。质子对晶体的穿透促进了从周围酸中的铌酸锂表面注入带相反电荷的离子(锂和苯甲酸酯)。用数值方法研究了反应产物在苯甲酸中的转移及其相互作用。所提出的数学模型考虑了体积内的复合效应，使得不同电荷符号的离子相互靠近，形成中性的苯甲酸锂。数值模拟结果表明，在稳态条件下，两种离子的浓度分布呈指数型，边界层内的电场和压力分布不均匀。在这个过程中，系统的总电荷保持为零。结果表明，锂离子和苯甲酸盐离子的浓度、复合和活度以及扩散系数对轮廓形状和工艺强度的影响。

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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来源期刊

Surface Engineering and Applied Electrochemistry Engineering-Industrial and Manufacturing Engineering

CiteScore

1.70

自引率

22.20%

发文量

审稿时长

6 months

期刊介绍： Surface Engineering and Applied Electrochemistry is a journal that publishes original and review articles on theory and applications of electroerosion and electrochemical methods for the treatment of materials; physical and chemical methods for the preparation of macro-, micro-, and nanomaterials and their properties; electrical processes in engineering, chemistry, and methods for the processing of biological products and food; and application electromagnetic fields in biological systems.