Ordered clustering of single atomic Te vacancies in atomically thin PtTe2 promotes hydrogen evolution catalysis

Ordered clustering of single atomic Te vacancies in atomically thin PtTe2 promotes hydrogen evolution catalysis

10.1038/s41467-021-22681-4

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Main Authors: Li, Xinzhe, Fang, Yiyun, Wang, Jun, Fang, Hanyan, Xi, Shibo, Zhao, Xiaoxu, Xu, Danyun, Xu, Haomin, Yu, Wei, Hai, Xiao, Chen, Cheng, Yao, Chuanhao, Tao, Hua Bing, Howe, Alexander G. R., Pennycook, Stephen J., Liu, Bin, Lu, Jiong, Su, Chenliang
Other Authors: CHEMISTRY
Format: Article
Published: Nature Research 2022
Online Access:https://scholarbank.nus.edu.sg/handle/10635/233064
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spelling sg-nus-scholar.10635-2330642024-11-14T18:09:27Z Ordered clustering of single atomic Te vacancies in atomically thin PtTe2 promotes hydrogen evolution catalysis Li, Xinzhe Fang, Yiyun Wang, Jun Fang, Hanyan Xi, Shibo Zhao, Xiaoxu Xu, Danyun Xu, Haomin Yu, Wei Hai, Xiao Chen, Cheng Yao, Chuanhao Tao, Hua Bing Howe, Alexander G. R. Pennycook, Stephen J. Liu, Bin Lu, Jiong Su, Chenliang CHEMISTRY MATERIALS SCIENCE AND ENGINEERING 10.1038/s41467-021-22681-4 Nature Communications 12 1 2351 2022-10-13T06:46:23Z 2022-10-13T06:46:23Z 2021-04-21 Article Li, Xinzhe, Fang, Yiyun, Wang, Jun, Fang, Hanyan, Xi, Shibo, Zhao, Xiaoxu, Xu, Danyun, Xu, Haomin, Yu, Wei, Hai, Xiao, Chen, Cheng, Yao, Chuanhao, Tao, Hua Bing, Howe, Alexander G. R., Pennycook, Stephen J., Liu, Bin, Lu, Jiong, Su, Chenliang (2021-04-21). Ordered clustering of single atomic Te vacancies in atomically thin PtTe2 promotes hydrogen evolution catalysis. Nature Communications 12 (1) : 2351. ScholarBank@NUS Repository. https://doi.org/10.1038/s41467-021-22681-4 2041-1723 https://scholarbank.nus.edu.sg/handle/10635/233064 Attribution 4.0 International https://creativecommons.org/licenses/by/4.0/ Nature Research Scopus OA2021
institution National University of Singapore
building NUS Library
continent Asia
country Singapore
Singapore
content_provider NUS Library
collection ScholarBank@NUS
description 10.1038/s41467-021-22681-4
author2 CHEMISTRY
author_facet CHEMISTRY
Li, Xinzhe
Fang, Yiyun
Wang, Jun
Fang, Hanyan
Xi, Shibo
Zhao, Xiaoxu
Xu, Danyun
Xu, Haomin
Yu, Wei
Hai, Xiao
Chen, Cheng
Yao, Chuanhao
Tao, Hua Bing
Howe, Alexander G. R.
Pennycook, Stephen J.
Liu, Bin
Lu, Jiong
Su, Chenliang
format Article
author Li, Xinzhe
Fang, Yiyun
Wang, Jun
Fang, Hanyan
Xi, Shibo
Zhao, Xiaoxu
Xu, Danyun
Xu, Haomin
Yu, Wei
Hai, Xiao
Chen, Cheng
Yao, Chuanhao
Tao, Hua Bing
Howe, Alexander G. R.
Pennycook, Stephen J.
Liu, Bin
Lu, Jiong
Su, Chenliang
spellingShingle Li, Xinzhe
Fang, Yiyun
Wang, Jun
Fang, Hanyan
Xi, Shibo
Zhao, Xiaoxu
Xu, Danyun
Xu, Haomin
Yu, Wei
Hai, Xiao
Chen, Cheng
Yao, Chuanhao
Tao, Hua Bing
Howe, Alexander G. R.
Pennycook, Stephen J.
Liu, Bin
Lu, Jiong
Su, Chenliang
Ordered clustering of single atomic Te vacancies in atomically thin PtTe2 promotes hydrogen evolution catalysis
author_sort Li, Xinzhe
title Ordered clustering of single atomic Te vacancies in atomically thin PtTe2 promotes hydrogen evolution catalysis
title_short Ordered clustering of single atomic Te vacancies in atomically thin PtTe2 promotes hydrogen evolution catalysis
title_full Ordered clustering of single atomic Te vacancies in atomically thin PtTe2 promotes hydrogen evolution catalysis
title_fullStr Ordered clustering of single atomic Te vacancies in atomically thin PtTe2 promotes hydrogen evolution catalysis
title_full_unstemmed Ordered clustering of single atomic Te vacancies in atomically thin PtTe2 promotes hydrogen evolution catalysis
title_sort ordered clustering of single atomic te vacancies in atomically thin ptte2 promotes hydrogen evolution catalysis
publisher Nature Research
publishDate 2022
url https://scholarbank.nus.edu.sg/handle/10635/233064
_version_ 1821187071479382016

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