化学
碳酸氢盐
电化学
碳酸盐
无机化学
激进的
氢
质子
光化学
分子
反应中间体
反应机理
碳纤维
动力学
催化作用
化学反应
电催化剂
化学动力学
氧化还原
电解水
光谱学
制氢
析氧
作者
Ya Wei Zhou,Enric Ibáñez-Alé,Núria López,Beatriz Roldan Cuenya,Christopher S. Kley,Ya Wei Zhou,Enric Ibáñez-Alé,Núria López,Beatriz Roldan Cuenya,Christopher S. Kley
标识
DOI:10.1038/s41557-025-01977-8
摘要
Abstract Interfacial hydration layers critically determine energy and chemical conversion processes, notably influencing the kinetics of electrocatalytic reactions. Fundamental mechanisms of reactions such as CO 2 electroreduction and hydrogen evolution remain controversial due to the challenge of in situ deciphering of hydration structures alongside reaction intermediates and products. Here, by using vibrational and electrochemical spectroscopy paired with theory we reveal how carbonates structure interfacial water, affecting CO 2 electroreduction and hydrogen evolution reactions on gold electrocatalysts in bicarbonate electrolytes. High cathodic potentials accelerate hydrogen evolution reactions by rapid proton delivery from ordered interfacial hydration networks, induced by carbonate molecules in equilibrium with their anion radicals. These radicals can serve, in addition to CO 2 , as a carbon source for CO and aldehyde production. Moreover we show water to be the primary proton donor for CO 2 electroreduction and hydrogen evolution reactions, with bicarbonate mostly participating in the Heyrovsky step. Our molecular-level insights are relevant to rationalizing and optimizing electrochemical interfaces.
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