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Hydrogen evolution enhancement of ultra-low loading, size-selected molybdenum sulfide nanoclusters by sulfur enrichment

Daniel Escalera-López, Yubiao Niu, Sung Jin Park, Mark Isaacs, Karen Wilson, Richard Palmer Orcid Logo, Neil V. Rees

Applied Catalysis B: Environmental, Volume: 235, Pages: 84 - 91

Swansea University Author: Richard Palmer Orcid Logo

Abstract

Size-selected molybdenum sulfide (MoSx) nanoclusters obtained by magnetron sputtering and gas condensation on glassy carbon substrates are typically sulfur-deficient (x = 1.6 ± 0.1), which limits their crystallinity and electrocatalytic properties. Here we demonstrate that a sulfur-enriching method,...

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Published in: Applied Catalysis B: Environmental
ISSN: 09263373
Published: 2018
Online Access: Check full text

URI: https://cronfa.swan.ac.uk/Record/cronfa39634
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Abstract: Size-selected molybdenum sulfide (MoSx) nanoclusters obtained by magnetron sputtering and gas condensation on glassy carbon substrates are typically sulfur-deficient (x = 1.6 ± 0.1), which limits their crystallinity and electrocatalytic properties. Here we demonstrate that a sulfur-enriching method, comprising sulfur evaporation and cluster annealing under vacuum conditions, significantly enhances their activity towards the hydrogen evolution reaction (HER). The S-richness (x = 4.9 ± 0.1) and extended crystalline order obtained in the sulfur-treated MoSx nanoclusters lead to consistent 200 mV shifts to lower HER onset potentials, along with two-fold and more-than 30-fold increases in turnover frequency and exchange current density values respectively. The high mass activities (~111 mA mg-1 @ 400 mV) obtained at ultra-low loadings (~100 ng cm-2, 5 % surface coverage) are comparable to the best reported MoS2 catalysts in the literature.
Keywords: molybdenum disulfide; nanoclusters; sulfur-rich; hydrogen evolution; magnetron sputtering deposition
College: Faculty of Science and Engineering
Start Page: 84
End Page: 91