The metal-ionic liquid interface as characterized by impedance spectroscopy and: In situ scanning tunneling microscopy

Abstract

We summarize our results of electrochemical measurements carried out on inert or close-To-inert metals in ionic liquids, with the aim to explore the metalionic liquid interface structure. To this we used electrochemical methods: cyclic voltammetry, impedance spectroscopy, potential of zero total charge measurements and structure-sensitive techniques, such as in situ scanning tunneling spectroscopy. The studied systems were mostly single crystals of noble metals in imidazolium-based ionic liquids. The two main findings are: (i) in the potential window where no Faradaic reactions occur, the interfacial capacitance exhibits a frequency dependence due to double-layer rearrangement processes and (ii) in certain cases ordered anion and cation structures exist at the interface.