One-step synthesis of single-site vanadium substitution in 1T-WS2 monolayers for enhanced hydrogen evolution catalysis
Ru is one of the most active metals for oxygen evolution reaction, but it quickly dissolves in acidic electrolyte particularly in nanosized form. Here the authors show that coral-like solid-solution Ru‒Ir consisting of 3 nm-thick sheets with only 6 at% Ir is a long-lived catalyst with high activity...
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Nature Portfolio
2021
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oai:doaj.org-article:69ce52cee74f4175b17468685f6f93612021-12-02T10:47:58ZOne-step synthesis of single-site vanadium substitution in 1T-WS2 monolayers for enhanced hydrogen evolution catalysis10.1038/s41467-021-20951-92041-1723https://doaj.org/article/69ce52cee74f4175b17468685f6f93612021-01-01T00:00:00Zhttps://doi.org/10.1038/s41467-021-20951-9https://doaj.org/toc/2041-1723Ru is one of the most active metals for oxygen evolution reaction, but it quickly dissolves in acidic electrolyte particularly in nanosized form. Here the authors show that coral-like solid-solution Ru‒Ir consisting of 3 nm-thick sheets with only 6 at% Ir is a long-lived catalyst with high activityAli HanXiaofeng ZhouXijun WangSheng LiuQihua XiongQinghua ZhangLin GuZechao ZhuangWenjing ZhangFanxing LiDingsheng WangLain-Jong LiYadong LiNature PortfolioarticleScienceQENNature Communications, Vol 12, Iss 1, Pp 1-10 (2021) |
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Science Q Ali Han Xiaofeng Zhou Xijun Wang Sheng Liu Qihua Xiong Qinghua Zhang Lin Gu Zechao Zhuang Wenjing Zhang Fanxing Li Dingsheng Wang Lain-Jong Li Yadong Li One-step synthesis of single-site vanadium substitution in 1T-WS2 monolayers for enhanced hydrogen evolution catalysis |
description |
Ru is one of the most active metals for oxygen evolution reaction, but it quickly dissolves in acidic electrolyte particularly in nanosized form. Here the authors show that coral-like solid-solution Ru‒Ir consisting of 3 nm-thick sheets with only 6 at% Ir is a long-lived catalyst with high activity |
format |
article |
author |
Ali Han Xiaofeng Zhou Xijun Wang Sheng Liu Qihua Xiong Qinghua Zhang Lin Gu Zechao Zhuang Wenjing Zhang Fanxing Li Dingsheng Wang Lain-Jong Li Yadong Li |
author_facet |
Ali Han Xiaofeng Zhou Xijun Wang Sheng Liu Qihua Xiong Qinghua Zhang Lin Gu Zechao Zhuang Wenjing Zhang Fanxing Li Dingsheng Wang Lain-Jong Li Yadong Li |
author_sort |
Ali Han |
title |
One-step synthesis of single-site vanadium substitution in 1T-WS2 monolayers for enhanced hydrogen evolution catalysis |
title_short |
One-step synthesis of single-site vanadium substitution in 1T-WS2 monolayers for enhanced hydrogen evolution catalysis |
title_full |
One-step synthesis of single-site vanadium substitution in 1T-WS2 monolayers for enhanced hydrogen evolution catalysis |
title_fullStr |
One-step synthesis of single-site vanadium substitution in 1T-WS2 monolayers for enhanced hydrogen evolution catalysis |
title_full_unstemmed |
One-step synthesis of single-site vanadium substitution in 1T-WS2 monolayers for enhanced hydrogen evolution catalysis |
title_sort |
one-step synthesis of single-site vanadium substitution in 1t-ws2 monolayers for enhanced hydrogen evolution catalysis |
publisher |
Nature Portfolio |
publishDate |
2021 |
url |
https://doaj.org/article/69ce52cee74f4175b17468685f6f9361 |
work_keys_str_mv |
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