Engineering grain boundaries at the 2D limit for the hydrogen evolution reaction

Atom-thin transition metal dichalcogenides (TMDs) have emerged as fascinating materials and key structures for electrocatalysis. So far, their edges, dopant heteroatoms and defects have been intensively explored as active sites for the hydrogen evolution reaction (HER) to split water. However, grain...

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Autores principales: He, Yongmin, Tang, Pengyi, Hu, Zhili, He, Qiyuan, Zhu, Chao, Wang, Luqing, Zeng, Qingsheng, Golani, Prafful, Gao, Guanhui, Fu, Wei, Huang, Zhiqi, Gao, Caitian, Xia, Juan, Wang, Xingli, Wang, Xuewen, Ramasse, Quentin M., Zhang, Ao, An, Boxing, Zhang, Yongzhe, Martí-Sánchez, Sara, Morante, Joan Ramon, Wang, Liang, Tay, Beng Kang, Yakobson, Boris I., Trampert, Achim, Zhang, Hua, Wu, Minghong, Wang, Qi Jie, Arbiol, Jordi, Liu, Zheng
Formato: Online Artículo Texto
Lenguaje:English
Publicado: Nature Publishing Group UK 2020
Materias:
Article
Acceso en línea:https://www.ncbi.nlm.nih.gov/pmc/articles/PMC6940382/
https://www.ncbi.nlm.nih.gov/pubmed/31896753
http://dx.doi.org/10.1038/s41467-019-13631-2
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author He, Yongmin
Tang, Pengyi
Hu, Zhili
He, Qiyuan
Zhu, Chao
Wang, Luqing
Zeng, Qingsheng
Golani, Prafful
Gao, Guanhui
Fu, Wei
Huang, Zhiqi
Gao, Caitian
Xia, Juan
Wang, Xingli
Wang, Xuewen
Zhu, Chao
Ramasse, Quentin M.
Zhang, Ao
An, Boxing
Zhang, Yongzhe
Martí-Sánchez, Sara
Morante, Joan Ramon
Wang, Liang
Tay, Beng Kang
Yakobson, Boris I.
Trampert, Achim
Zhang, Hua
Wu, Minghong
Wang, Qi Jie
Arbiol, Jordi
Liu, Zheng
author_facet He, Yongmin
Tang, Pengyi
Hu, Zhili
He, Qiyuan
Zhu, Chao
Wang, Luqing
Zeng, Qingsheng
Golani, Prafful
Gao, Guanhui
Fu, Wei
Huang, Zhiqi
Gao, Caitian
Xia, Juan
Wang, Xingli
Wang, Xuewen
Zhu, Chao
Ramasse, Quentin M.
Zhang, Ao
An, Boxing
Zhang, Yongzhe
Martí-Sánchez, Sara
Morante, Joan Ramon
Wang, Liang
Tay, Beng Kang
Yakobson, Boris I.
Trampert, Achim
Zhang, Hua
Wu, Minghong
Wang, Qi Jie
Arbiol, Jordi
Liu, Zheng
author_sort He, Yongmin
collection PubMed
description Atom-thin transition metal dichalcogenides (TMDs) have emerged as fascinating materials and key structures for electrocatalysis. So far, their edges, dopant heteroatoms and defects have been intensively explored as active sites for the hydrogen evolution reaction (HER) to split water. However, grain boundaries (GBs), a key type of defects in TMDs, have been overlooked due to their low density and large structural variations. Here, we demonstrate the synthesis of wafer-size atom-thin TMD films with an ultra-high-density of GBs, up to ~10(12) cm(−2). We propose a climb and drive 0D/2D interaction to explain the underlying growth mechanism. The electrocatalytic activity of the nanograin film is comprehensively examined by micro-electrochemical measurements, showing an excellent hydrogen-evolution performance (onset potential: −25 mV and Tafel slope: 54 mV dec(−1)), thus indicating an intrinsically high activation of the TMD GBs.
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spelling pubmed-69403822020-01-06 Engineering grain boundaries at the 2D limit for the hydrogen evolution reaction He, Yongmin Tang, Pengyi Hu, Zhili He, Qiyuan Zhu, Chao Wang, Luqing Zeng, Qingsheng Golani, Prafful Gao, Guanhui Fu, Wei Huang, Zhiqi Gao, Caitian Xia, Juan Wang, Xingli Wang, Xuewen Zhu, Chao Ramasse, Quentin M. Zhang, Ao An, Boxing Zhang, Yongzhe Martí-Sánchez, Sara Morante, Joan Ramon Wang, Liang Tay, Beng Kang Yakobson, Boris I. Trampert, Achim Zhang, Hua Wu, Minghong Wang, Qi Jie Arbiol, Jordi Liu, Zheng Nat Commun Article Atom-thin transition metal dichalcogenides (TMDs) have emerged as fascinating materials and key structures for electrocatalysis. So far, their edges, dopant heteroatoms and defects have been intensively explored as active sites for the hydrogen evolution reaction (HER) to split water. However, grain boundaries (GBs), a key type of defects in TMDs, have been overlooked due to their low density and large structural variations. Here, we demonstrate the synthesis of wafer-size atom-thin TMD films with an ultra-high-density of GBs, up to ~10(12) cm(−2). We propose a climb and drive 0D/2D interaction to explain the underlying growth mechanism. The electrocatalytic activity of the nanograin film is comprehensively examined by micro-electrochemical measurements, showing an excellent hydrogen-evolution performance (onset potential: −25 mV and Tafel slope: 54 mV dec(−1)), thus indicating an intrinsically high activation of the TMD GBs. Nature Publishing Group UK 2020-01-02 /pmc/articles/PMC6940382/ /pubmed/31896753 http://dx.doi.org/10.1038/s41467-019-13631-2 Text en © The Author(s) 2020 https://creativecommons.org/licenses/by/4.0/Open Access This article is licensed under a Creative Commons Attribution 4.0 International License, which permits use, sharing, adaptation, distribution and reproduction in any medium or format, as long as you give appropriate credit to the original author(s) and the source, provide a link to the Creative Commons license, and indicate if changes were made. The images or other third party material in this article are included in the article’s Creative Commons license, unless indicated otherwise in a credit line to the material. If material is not included in the article’s Creative Commons license and your intended use is not permitted by statutory regulation or exceeds the permitted use, you will need to obtain permission directly from the copyright holder. To view a copy of this license, visit http://creativecommons.org/licenses/by/4.0/ (https://creativecommons.org/licenses/by/4.0/) .
spellingShingle Article
He, Yongmin
Tang, Pengyi
Hu, Zhili
He, Qiyuan
Zhu, Chao
Wang, Luqing
Zeng, Qingsheng
Golani, Prafful
Gao, Guanhui
Fu, Wei
Huang, Zhiqi
Gao, Caitian
Xia, Juan
Wang, Xingli
Wang, Xuewen
Zhu, Chao
Ramasse, Quentin M.
Zhang, Ao
An, Boxing
Zhang, Yongzhe
Martí-Sánchez, Sara
Morante, Joan Ramon
Wang, Liang
Tay, Beng Kang
Yakobson, Boris I.
Trampert, Achim
Zhang, Hua
Wu, Minghong
Wang, Qi Jie
Arbiol, Jordi
Liu, Zheng
Engineering grain boundaries at the 2D limit for the hydrogen evolution reaction
title Engineering grain boundaries at the 2D limit for the hydrogen evolution reaction
title_full Engineering grain boundaries at the 2D limit for the hydrogen evolution reaction
title_fullStr Engineering grain boundaries at the 2D limit for the hydrogen evolution reaction
title_full_unstemmed Engineering grain boundaries at the 2D limit for the hydrogen evolution reaction
title_short Engineering grain boundaries at the 2D limit for the hydrogen evolution reaction
title_sort engineering grain boundaries at the 2d limit for the hydrogen evolution reaction
topic Article
url https://www.ncbi.nlm.nih.gov/pmc/articles/PMC6940382/
https://www.ncbi.nlm.nih.gov/pubmed/31896753
http://dx.doi.org/10.1038/s41467-019-13631-2
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