Zooming‐in – Visualization of active site heterogeneity in high entropy alloy electrocatalysts using scanning electrochemical cell microscopy

Emmanuel Batsa Tetteh; Lars Banko; Olga A. Krysiak; Tobias Löffler; Bin Xiao; Swapnil Varhade; Simon Schumacher; Alan Savan; Corina Andronescu; Alfred Ludwig; Wolfgang Schuhmann

doi:10.1002/elsa.202100105

Electrochemical Science Advances (Jun 2022)

Zooming‐in – Visualization of active site heterogeneity in high entropy alloy electrocatalysts using scanning electrochemical cell microscopy

Emmanuel Batsa Tetteh,
Lars Banko,
Olga A. Krysiak,
Tobias Löffler,
Bin Xiao,
Swapnil Varhade,
Simon Schumacher,
Alan Savan,
Corina Andronescu,
Alfred Ludwig,
Wolfgang Schuhmann

Affiliations

Emmanuel Batsa Tetteh: Analytical Chemistry – Center for Electrochemical Sciences (CES), Faculty of Chemistry and Biochemistry Ruhr University Bochum Universitätsstraße 150 Bochum Germany
Lars Banko: Chair for Materials Discovery and Interfaces, Institute for Materials Faculty of Mechanical Engineering Ruhr University Bochum Universitätsstraße 150 Bochum Germany
Olga A. Krysiak: Analytical Chemistry – Center for Electrochemical Sciences (CES), Faculty of Chemistry and Biochemistry Ruhr University Bochum Universitätsstraße 150 Bochum Germany
Tobias Löffler: Analytical Chemistry – Center for Electrochemical Sciences (CES), Faculty of Chemistry and Biochemistry Ruhr University Bochum Universitätsstraße 150 Bochum Germany
Bin Xiao: Chair for Materials Discovery and Interfaces, Institute for Materials Faculty of Mechanical Engineering Ruhr University Bochum Universitätsstraße 150 Bochum Germany
Swapnil Varhade: Analytical Chemistry – Center for Electrochemical Sciences (CES), Faculty of Chemistry and Biochemistry Ruhr University Bochum Universitätsstraße 150 Bochum Germany
Simon Schumacher: Technical Chemistry III and CENIDE Center for Nanointegration Faculty of Chemistry University of Duisburg‐Essen Carl‐Benz‐Straße 199 Duisburg Germany
Alan Savan: Chair for Materials Discovery and Interfaces, Institute for Materials Faculty of Mechanical Engineering Ruhr University Bochum Universitätsstraße 150 Bochum Germany
Corina Andronescu: Technical Chemistry III and CENIDE Center for Nanointegration Faculty of Chemistry University of Duisburg‐Essen Carl‐Benz‐Straße 199 Duisburg Germany
Alfred Ludwig: Chair for Materials Discovery and Interfaces, Institute for Materials Faculty of Mechanical Engineering Ruhr University Bochum Universitätsstraße 150 Bochum Germany
Wolfgang Schuhmann: Analytical Chemistry – Center for Electrochemical Sciences (CES), Faculty of Chemistry and Biochemistry Ruhr University Bochum Universitätsstraße 150 Bochum Germany

DOI: https://doi.org/10.1002/elsa.202100105
Journal volume & issue: Vol. 2, no. 3
pp. n/a – n/a

Abstract

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Abstract Complex solid solutions (“high entropy alloys” with a single solid‐solution phase) hold great promise in electrocatalysis because of their nearly unlimited number of different active sites exposed at the surface. It has been shown by theoretical studies that multiple arrangements of different elements directly neighboring a binding site create millions of differently active catalytic sites. We report a zooming‐in approach using scanning electrochemical cell microscopy (SECCM) to distinguish between the averaged electrochemical response of multiple active sites and active site‐specific electrochemical response. Using a thin film complex solid solution electrocatalyst and a range of SECCM single barrel capillaries with diameters from 1.2 µm to 50 nm, we observed an averaged electrochemical response for the oxygen reduction reaction with minor statistical variations for the larger capillary diameters. In contrast, significant statistical heterogeneity among the measured spots is observed for small capillary diameters. This statistical heterogeneity is attributed to the ability of the smaller probe size to address a comparatively smaller number of active sites with high or low activity dominating the measured electrocatalytic currents.

Published in Electrochemical Science Advances

ISSN: 2698-5977 (Online)
Publisher: Wiley-VCH
Country of publisher: Germany
LCC subjects: Technology: Chemical technology: Industrial electrochemistry; Science: Chemistry
Website: https://chemistry-europe.onlinelibrary.wiley.com/journal/26985977

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