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The Effect of MoS x Nanocoatings on the Water Electrolysis Performance Using a Nickel-Foam-Based Bifunctional Catalyst

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dc.contributor.authorNovikov, S. M.
dc.contributor.authorKomleva, O. V.
dc.contributor.authorFominski, D. V.
dc.contributor.authorRomanov, R. I.
dc.contributor.authorFominski, V. Y.
dc.contributor.authorEsin, M. I.
dc.contributor.authorРубинковская, Оксана Владимировна
dc.contributor.authorФоминский, Дмитрий Вячеславович
dc.contributor.authorРоманов, Роман Иванович
dc.contributor.authorФоминский, Вячеслав Юрьевич
dc.date.accessioned2024-11-21T18:25:11Z
dc.date.available2024-11-21T18:25:11Z
dc.date.issued2019
dc.description.abstract© 2019, Pleiades Publishing, Ltd.The ability to increase the efficiency of electrochemical H2 and O2 evolution reactions in an alkaline solution using nickel-foam-based electrodes has been studied. To improve the catalytic properties of the foam, it was subjected to complex modification via sulfurizing in sulfur-containing gaseous media and the additional formation of amorphous or crystalline MoSx nanolayers. The foam was sulfidized in hydrogen sulfide or sulfur vapor at a temperature of 400°C. Amorphous MoSx films were produced via pulsed laser deposition from a MoS2 target in an H2S atmosphere. To obtain nanocrystalline catalytic MoSx layers, thin-film Mo precursors were preliminarily applied to the foam pre-sulfurized in sulfur vapor at 400°C. The deposition of precursors was carried out in vacuum at 22°C. After deposition, the foam with precursors was oxidized in air at 600°C. The modified samples were probed via scanning electron microscopy involving microanalysis and Raman spectroscopy. The effect of the precursor layer thickness on the sulfurizing efficiency and phase composition of the modified layers was established. The amorphous layer deposition was found to have a strong impact on only the O2 evolution. The crystalline layers obtained via sulfidizing of Mo-containing precursors exerted influence on both the cathodic and anodic reactions. The hydrogen overvoltage at a current density of 10 mA/cm2 was −160 mV, and the oxygen overvoltage was below 150 mV, which corresponded to the best electrocatalysts on the nickel foam after the volume modification via conventional chemical treatment (hydro- and solvothermal synthesis).
dc.format.extentС. 1332-1336
dc.identifier.citationThe Effect of MoS x Nanocoatings on the Water Electrolysis Performance Using a Nickel-Foam-Based Bifunctional Catalyst / Novikov, S.M. [et al.] // Physics of Atomic Nuclei. - 2019. - 82. - № 10. - P. 1332-1336. - 10.1134/S1063778819100120
dc.identifier.doi10.1134/S1063778819100120
dc.identifier.urihttps://www.doi.org/10.1134/S1063778819100120
dc.identifier.urihttps://www.scopus.com/record/display.uri?eid=2-s2.0-85082412616&origin=resultslist
dc.identifier.urihttp://gateway.webofknowledge.com/gateway/Gateway.cgi?GWVersion=2&SrcAuth=Alerting&SrcApp=Alerting&DestApp=WOS_CPL&DestLinkType=FullRecord&UT=WOS:000520312400002
dc.identifier.urihttps://openrepository.mephi.ru/handle/123456789/19505
dc.relation.ispartofPhysics of Atomic Nuclei
dc.titleThe Effect of MoS x Nanocoatings on the Water Electrolysis Performance Using a Nickel-Foam-Based Bifunctional Catalyst
dc.typeArticle
dspace.entity.typePublication
oaire.citation.issue10
oaire.citation.volume82
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