Atomically-precise dopant-controlled single cluster catalysis for electrochemical nitrogen reduction

Atomically-precise dopant-controlled single cluster catalysis for electrochemical nitrogen reduction

The fabrication of singly dispersed metal cluster catalysts with atomic-level control of dopants is a long-standing challenge. Here, the authors report a strategy for the synthesis of a precisely doped single cluster catalyst which shows exceptional activity for electrochemical dinitrogen reduction.

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Autores principales: Chuanhao Yao, Na Guo, Shibo Xi, Cong-Qiao Xu, Wei Liu, Xiaoxu Zhao, Jing Li, Hanyan Fang, Jie Su, Zhongxin Chen, Huan Yan, Zhizhan Qiu, Pin Lyu, Cheng Chen, Haomin Xu, Xinnan Peng, Xinzhe Li, Bin Liu, Chenliang Su, Stephen J. Pennycook, Cheng-Jun Sun, Jun Li, Chun Zhang, Yonghua Du, Jiong Lu
Formato: article
Lenguaje:EN
Publicado: Nature Portfolio 2020
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Acceso en línea:https://doaj.org/article/b7a441d1902f4061a1d4e7682e33706e
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spelling oai:doaj.org-article:b7a441d1902f4061a1d4e7682e33706e2021-12-02T19:09:31ZAtomically-precise dopant-controlled single cluster catalysis for electrochemical nitrogen reduction10.1038/s41467-020-18080-w2041-1723https://doaj.org/article/b7a441d1902f4061a1d4e7682e33706e2020-09-01T00:00:00Zhttps://doi.org/10.1038/s41467-020-18080-whttps://doaj.org/toc/2041-1723The fabrication of singly dispersed metal cluster catalysts with atomic-level control of dopants is a long-standing challenge. Here, the authors report a strategy for the synthesis of a precisely doped single cluster catalyst which shows exceptional activity for electrochemical dinitrogen reduction.Chuanhao YaoNa GuoShibo XiCong-Qiao XuWei LiuXiaoxu ZhaoJing LiHanyan FangJie SuZhongxin ChenHuan YanZhizhan QiuPin LyuCheng ChenHaomin XuXinnan PengXinzhe LiBin LiuChenliang SuStephen J. PennycookCheng-Jun SunJun LiChun ZhangYonghua DuJiong LuNature PortfolioarticleScienceQENNature Communications, Vol 11, Iss 1, Pp 1-10 (2020)
institution DOAJ
collection DOAJ
language EN
topic Science
Q
spellingShingle Science
Q
Chuanhao Yao
Na Guo
Shibo Xi
Cong-Qiao Xu
Wei Liu
Xiaoxu Zhao
Jing Li
Hanyan Fang
Jie Su
Zhongxin Chen
Huan Yan
Zhizhan Qiu
Pin Lyu
Cheng Chen
Haomin Xu
Xinnan Peng
Xinzhe Li
Bin Liu
Chenliang Su
Stephen J. Pennycook
Cheng-Jun Sun
Jun Li
Chun Zhang
Yonghua Du
Jiong Lu
Atomically-precise dopant-controlled single cluster catalysis for electrochemical nitrogen reduction
description The fabrication of singly dispersed metal cluster catalysts with atomic-level control of dopants is a long-standing challenge. Here, the authors report a strategy for the synthesis of a precisely doped single cluster catalyst which shows exceptional activity for electrochemical dinitrogen reduction.
format article
author Chuanhao Yao
Na Guo
Shibo Xi
Cong-Qiao Xu
Wei Liu
Xiaoxu Zhao
Jing Li
Hanyan Fang
Jie Su
Zhongxin Chen
Huan Yan
Zhizhan Qiu
Pin Lyu
Cheng Chen
Haomin Xu
Xinnan Peng
Xinzhe Li
Bin Liu
Chenliang Su
Stephen J. Pennycook
Cheng-Jun Sun
Jun Li
Chun Zhang
Yonghua Du
Jiong Lu
author_facet Chuanhao Yao
Na Guo
Shibo Xi
Cong-Qiao Xu
Wei Liu
Xiaoxu Zhao
Jing Li
Hanyan Fang
Jie Su
Zhongxin Chen
Huan Yan
Zhizhan Qiu
Pin Lyu
Cheng Chen
Haomin Xu
Xinnan Peng
Xinzhe Li
Bin Liu
Chenliang Su
Stephen J. Pennycook
Cheng-Jun Sun
Jun Li
Chun Zhang
Yonghua Du
Jiong Lu
author_sort Chuanhao Yao
title Atomically-precise dopant-controlled single cluster catalysis for electrochemical nitrogen reduction
title_short Atomically-precise dopant-controlled single cluster catalysis for electrochemical nitrogen reduction
title_full Atomically-precise dopant-controlled single cluster catalysis for electrochemical nitrogen reduction
title_fullStr Atomically-precise dopant-controlled single cluster catalysis for electrochemical nitrogen reduction
title_full_unstemmed Atomically-precise dopant-controlled single cluster catalysis for electrochemical nitrogen reduction
title_sort atomically-precise dopant-controlled single cluster catalysis for electrochemical nitrogen reduction
publisher Nature Portfolio
publishDate 2020
url https://doaj.org/article/b7a441d1902f4061a1d4e7682e33706e
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