Published August 2, 2022 | Version v1
Journal article Open

Revealing the Heterogeneity of Large-Area MoS2 Layers in the Electrocatalytic Hydrogen Evolution Reaction

Authors/Creators

  • 1. Chemical Technology III, Faculty of Chemistry and CENIDE; University of Duisburg-Essen Carl-Benz-Straße 199, 47057 Duisburg, Germany
  • 2. Faculty of Physics and CENIDE; University of Duisburg-Essen Duisburg, 47057, Germany
  • 3. Analytical Chemistry - Center for Electrochemical Sciences (CES), Faculty of Chemistry and Biochemistry Ruhr University Bochum; Universitätsstraße 150, 44780 Bochum, Germany

Description

The electrocatalytic activity concerning the hydrogen evolution reaction (HER) of micrometer-sized MoS2 layers transferred on a
glassy carbon surface was evaluated by scanning electrochemical cell microscopy (SECCM) in a high-throughput approach. Multiple areas on single or multiple MoS2 layers were assessed using a hopping mode nanocapillary positioning with a hopping distance of 500 nm and a nanopipette size of around 55 nm. The locally recorded linear sweep voltammograms revealed a high lateral heterogeneity over the MoS2 sheet regarding their HER activity, with currents between  40 and 60 pA recorded at  0.89 V vs. reversible hygrogen electrode over about 4400 different measured areas on the MoS2 sheet. Stacked MoS2 layers did not show different electrocatalytic activity than the single MoS2 sheet, suggesting that the interlayer resistance influences the electrocatalytic activity less than the resistances induced by possible polymer residues or water layers formed between the transferred MoS2 sheet and the glassy carbon electrode.

Notes

S.S., C.A. acknowledge financial support from the German Research Foundation (Deutsche Forschungsgemeinschaft, DFG) in the framework of the DFG project AN 1570/2-1 (440951282). L.M., Y.L. and M.S. acknowledge support from the German Research Foundation (DFG) under project SCHL 384/20-1 (406129719). W.S. and E.B.T received funding from the European Research Council (ERC) under the European Union's Horizon 2020 research and innovation program (grant agreement CasCat [833408]) as well as under the Marie Skłodowska-Curie MSCA-ITN, Sentinel [812398]. Prof. Patrick Unwin from the University of Warwick is acknowledged for providing the initial SECCM control software (WEC-SPM). Open Access funding enabled and organized by Projekt DEAL.

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DOI10.1002celc.202200586.pdf

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Additional details

Funding

European Commission
SENTINEL - Single-Entity NanoElectrochemistry 812398
European Commission
CASCAT - Catalytic cascade reactions. From fundamentals of nanozymes to applications based on gas-diffusion electrodes 833408