Interface confined hydrogen evolution reaction in zero valent metal nanoparticles-intercalated molybdenum disulfide

Interface confined hydrogen evolution reaction in zero valent metal nanoparticles-intercalated molybdenum disulfide

Interface confined reactions are a viable strategy for achieving stable and selective catalysts. Here, the authors demonstrate that 1T'-enriched lithiated MoS2 can reduce metal ions in situ, forming zero valent platinum nanoparticle-intercalated MoS2, with enhanced hydrogen evolution activity.

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Autores principales: Zhongxin Chen, Kai Leng, Xiaoxu Zhao, Souradip Malkhandi, Wei Tang, Bingbing Tian, Lei Dong, Lirong Zheng, Ming Lin, Boon Siang Yeo, Kian Ping Loh
Formato: article
Lenguaje:EN
Publicado: Nature Portfolio 2017
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Acceso en línea:https://doaj.org/article/18d372027b9a4e0485c762a59bcdf259
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spelling oai:doaj.org-article:18d372027b9a4e0485c762a59bcdf2592021-12-02T17:06:04ZInterface confined hydrogen evolution reaction in zero valent metal nanoparticles-intercalated molybdenum disulfide10.1038/ncomms145482041-1723https://doaj.org/article/18d372027b9a4e0485c762a59bcdf2592017-02-01T00:00:00Zhttps://doi.org/10.1038/ncomms14548https://doaj.org/toc/2041-1723Interface confined reactions are a viable strategy for achieving stable and selective catalysts. Here, the authors demonstrate that 1T'-enriched lithiated MoS2 can reduce metal ions in situ, forming zero valent platinum nanoparticle-intercalated MoS2, with enhanced hydrogen evolution activity.Zhongxin ChenKai LengXiaoxu ZhaoSouradip MalkhandiWei TangBingbing TianLei DongLirong ZhengMing LinBoon Siang YeoKian Ping LohNature PortfolioarticleScienceQENNature Communications, Vol 8, Iss 1, Pp 1-9 (2017)
institution DOAJ
collection DOAJ
language EN
topic Science
Q
spellingShingle Science
Q
Zhongxin Chen
Kai Leng
Xiaoxu Zhao
Souradip Malkhandi
Wei Tang
Bingbing Tian
Lei Dong
Lirong Zheng
Ming Lin
Boon Siang Yeo
Kian Ping Loh
Interface confined hydrogen evolution reaction in zero valent metal nanoparticles-intercalated molybdenum disulfide
description Interface confined reactions are a viable strategy for achieving stable and selective catalysts. Here, the authors demonstrate that 1T'-enriched lithiated MoS2 can reduce metal ions in situ, forming zero valent platinum nanoparticle-intercalated MoS2, with enhanced hydrogen evolution activity.
format article
author Zhongxin Chen
Kai Leng
Xiaoxu Zhao
Souradip Malkhandi
Wei Tang
Bingbing Tian
Lei Dong
Lirong Zheng
Ming Lin
Boon Siang Yeo
Kian Ping Loh
author_facet Zhongxin Chen
Kai Leng
Xiaoxu Zhao
Souradip Malkhandi
Wei Tang
Bingbing Tian
Lei Dong
Lirong Zheng
Ming Lin
Boon Siang Yeo
Kian Ping Loh
author_sort Zhongxin Chen
title Interface confined hydrogen evolution reaction in zero valent metal nanoparticles-intercalated molybdenum disulfide
title_short Interface confined hydrogen evolution reaction in zero valent metal nanoparticles-intercalated molybdenum disulfide
title_full Interface confined hydrogen evolution reaction in zero valent metal nanoparticles-intercalated molybdenum disulfide
title_fullStr Interface confined hydrogen evolution reaction in zero valent metal nanoparticles-intercalated molybdenum disulfide
title_full_unstemmed Interface confined hydrogen evolution reaction in zero valent metal nanoparticles-intercalated molybdenum disulfide
title_sort interface confined hydrogen evolution reaction in zero valent metal nanoparticles-intercalated molybdenum disulfide
publisher Nature Portfolio
publishDate 2017
url https://doaj.org/article/18d372027b9a4e0485c762a59bcdf259
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