Issue 47, 2015

Electrocatalysis-induced elasticity modulation in a superionic proton conductor probed by band-excitation atomic force microscopy

Abstract

Variable temperature band-excitation atomic force microscopy in conjunction with IV spectroscopy was used to investigate the crystalline superionic proton conductor CsHSO4 during proton exchange induced by a Pt-coated conductive scanning probe. At a sample temperature of 150 °C and under an applied bias <1 V, reduction currents of up to 1 nA were observed. Simultaneously, we show that the electrochemical reactions are accompanied by a reversible decrease in the elastic modulus of CsHSO4, as seen by a contact resonance shift, and find evidence for superplasticity during scanning. These effects were not observed in the room-temperature phase of CsHSO4 or in the case of catalytically inactive conductive probes, proving the utility of this technique for monitoring electrochemical processes on the nanoscale, as well as the use of local contact stiffness as a sensitive indicator of electrochemical reactions.

Graphical abstract: Electrocatalysis-induced elasticity modulation in a superionic proton conductor probed by band-excitation atomic force microscopy

Article information

Article type
Paper
Submitted
17 Jul 2015
Accepted
30 Oct 2015
First published
02 Nov 2015

Nanoscale, 2015,7, 20089-20094

Electrocatalysis-induced elasticity modulation in a superionic proton conductor probed by band-excitation atomic force microscopy

A. B. Papandrew, Q. Li, M. B. Okatan, S. Jesse, C. Hartnett, S. V. Kalinin and R. K. Vasudevan, Nanoscale, 2015, 7, 20089 DOI: 10.1039/C5NR04809E

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