Experimentally Probing 'Hydrophobic' Water at the Gold Electrode/Aqueous Interface

Abstract

Quantitative description of reaction mechanisms in aqueous phase electrochemistry requires experimental characterization of local water structure at the electrode/aqueous interface and its evolution with changing potential. Gaining such insight experimentally under electrochemical conditions is a formidable task. Here we characterize the potential dependent structure of a sub-population of interfacial water that have one OH group pointing towards a gold working electrode using interface specific vibrational spectroscopy in a thin film electrochemical cell. Such 'free-OH' groups are the molecular level observable of an extended hydrophobic interface. This 'free-OH' interacts only weakly with the Au surface at all potentials, has an orientational distribution that narrows as one approaches the potential of zero charge and disappears on the oxidation of the gold electrode.