Potential Dependent Evolution of Electric Double Layer at Electrode/Water Interface

Fujia Zhao, Yingjie Zhang
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Abstract

Water structure at electrode interface can affect electrochemical reactions in multiple ways, as it plays important role in processes including mass transport, surface adsorption, and charge transfer. Thus, in-situ characterization of electrode/water interface is in high demand for a deeper understanding and better utilization of electrochemical systems. Here, we introduce our study on the evolution of interfacial water structure with changing electric potential. Configurational and structural understanding were obtained by in-situ Raman spectroscopy and atomic force microscopy (AFM) measurements respectively, with special efforts to enhance interfacial sensitivity for both techniques. Our study demonstrated electric potential dependent changes in the hydrogen bonding network and hydration layer structure, which provides new insight into how interfacial hydration structure can be correlated with the electrochemical reaction performance.
电极/水界面双电层的电位依赖演化
电极界面水结构对电化学反应的影响是多方面的,它在质量传递、表面吸附、电荷转移等过程中起着重要作用。因此,为了更好地理解和利用电化学系统,对电极/水界面的原位表征有很高的要求。本文介绍了电势变化对界面水结构演化的影响。通过原位拉曼光谱和原子力显微镜(AFM)测量分别获得了构型和结构的理解,并特别努力提高这两种技术的界面灵敏度。我们的研究证明了氢键网络和水化层结构的电势依赖性变化,这为界面水化结构如何与电化学反应性能相关联提供了新的见解。
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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