On the Coupling of Electron Transfer to Proton Transfer at Electrified Interfaces

On the Coupling of Electron Transfer to Proton Transfer at Electrified Interfaces

Many electrochemical processes are governed by the transfer of protons to the surface, which can be coupled with electron transfer; this electron transfer is in general non-integer and unknown a priori, but is required to hold the potential constant. In this study, we employ a combination of surface...

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Bibliographic Details
Published in:Journal of the American Chemical Society Vol. 142; no. 27; pp. 11829 - 11834
Main Authors: Ge, Aimin, Kastlunger, Georg, Meng, Jinhui, Lindgren, Per, Song, Jia, Liu, Qiliang, Zaslavsky, Alexander, Lian, Tianquan, Peterson, Andrew A
Format: Journal Article
Language:English
Published: American Chemical Society 08-07-2020
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Summary:Many electrochemical processes are governed by the transfer of protons to the surface, which can be coupled with electron transfer; this electron transfer is in general non-integer and unknown a priori, but is required to hold the potential constant. In this study, we employ a combination of surface spectroscopic techniques and grand-canonical electronic-structure calculations in order to rigorously understand the thermodynamics of this process. Specifically, we explore the protonation/deprotonation of 4-mercapto­benzoic acid as a function of the applied potential. Using grand-canonical electronic-structure calculations, we directly infer the coupled electron transfer, which we find to be on the order of 0.1 electron per proton; experimentally, we also access this quantity via the potential-dependence of the pK a. We show a striking agreement between the potential-dependence of the measured pK a and that calculated with electronic-structure calculations. We further employ a simple electrostatics-based model to show that this slope can equivalently be interpreted to provide information on the degree of coupled electron transfer or the potential change at the point of the charged species.
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ISSN:0002-7863
1520-5126
DOI:10.1021/jacs.0c03472