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Investigation of Electrochemical and Chemical Processes Occurring at Positive Potentials in “Water-in-Salt” Electrolytes

Marion Maffre, Roza Bouchal, Stefan A. Freunberger, Niklas Lindahl, Patrik Johansson, Frèdéric Favier, Olivier Fontaine, Daniel Bélanger

2021Journal of The Electrochemical Society18 citationsDOI

Abstract

Lithium bis(trifluoromethylsulfonyl)imide (LiTFSI) based water-in-salt electrolytes (WiSEs) has recently emerged as a new promising class of electrolytes, primarily owing to their wide electrochemical stability windows (∼3–4 V), that by far exceed the thermodynamic stability window of water (1.23 V). Upon increasing the salt concentration towards superconcentration the onset of the oxygen evolution reaction (OER) shifts more significantly than the hydrogen evolution reaction (HER) does. The OER shift has been explained by the accumulation of hydrophobic anions blocking water access to the electrode surface, hence by double layer theory. Here we demonstrate that the processes during oxidation are much more complex, involving OER, carbon and salt decomposition by OER intermediates, and salt precipitation upon local oversaturation. The positive shift in the onset potential of oxidation currents was elucidated by combining several advanced analysis techniques: rotating ring-disk electrode voltammetry, online electrochemical mass spectrometry, and X-ray photoelectron spectroscopy, using both dilute and superconcentrated electrolytes. The results demonstrate the importance of reactive OER intermediates and surface films for electrolyte and electrode stability and motivate further studies of the nature of the electrode.

Topics & Concepts

Oxygen evolutionElectrolyteElectrochemistryChemistryInorganic chemistryCyclic voltammetrySalt (chemistry)ElectrodeLithium (medication)X-ray photoelectron spectroscopyChemical engineeringPhysical chemistryMedicineEngineeringEndocrinologyElectrocatalysts for Energy ConversionElectrochemical Analysis and ApplicationsAdvanced battery technologies research
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