Non-Monotonic Variation of Potential-Dependent Surface Diffusion at Electrochemical Interfaces in the Presence of Coadsorbates

Angewandte Chemie Pub Date : 2025-01-27 DOI:10.1002/ange.202419390

Dr. Chaolong Yang, Dr. Reihaneh Amirbeigiarab, Sönke Buttenschön, Prof. Dr. Eckhard Pehlke, Prof. Dr. Olaf M. Magnussen

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Abstract

The influence of coadsorbed ions on adsorbate diffusion, an inherent effect at solid–liquid interfaces, was studied for adsorbed sulfur on Ag(100) electrodes in the presence of bromide or iodide. Quantitative in situ high-speed scanning tunnelling microscopy (video-STM) measurements were performed both in the potential regime of the c(2×2) halide adlayer at its saturation coverage and in the regime of a disordered adlayer where the halide coverage increases with potential. These studies reveal a surprising non-monotonic potential dependence of S_ad diffusion with an initial increase with halide coverage, followed by a decrease upon halide adlayer ordering into the c(2×2) structure. Density functional theory (DFT) and Monte Carlo (MC) simulations only qualitatively reproduce the rise in S_ad mobility with halide coverage, suggesting that many-adsorbate interactions and the presence of the electrolyte need to be considered.

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存在吸附剂时电化学界面上电位相关表面扩散的非单调变化

研究了共吸附离子对吸附剂扩散的影响（这是固液界面的固有效应），以及在溴化物或碘化物存在下 Ag（100）电极上吸附硫的情况。在 c(2×2) 卤化物吸附层饱和覆盖率的电位机制下，以及在卤化物覆盖率随电位增加而增加的无序吸附层机制下，都进行了原位高速扫描隧道显微镜（视频-STM）定量测量。这些研究揭示了令人惊讶的萨德扩散的非单调电势依赖性，即最初随着卤化物覆盖率的增加而增加，随后在卤化物吸附层有序进入 c(2×2) 结构时减少。密度泛函理论（DFT）和蒙特卡洛（MC）模拟只能定性地再现萨德尔迁移率随卤化物覆盖率增加而增加的现象，这表明需要考虑多吸附剂相互作用和电解质的存在。

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

Angewandte Chemie 化学科学, 有机化学, 有机合成

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1 months