Surface engineering of hierarchical platinum-cobalt nanowires for efficient electrocatalysis

Surface engineering of hierarchical platinum-cobalt nanowires for efficient electrocatalysis

Platinum-based nanowires are promising for fuel cell applications due to their high catalytic activity. Here the authors report on hierarchical platinum-cobalt nanowires with high-index facets showing specific/mass activities for oxygen reduction reaction 39.6/33.7 times higher than commercial Pt/C...

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Autores principales: Lingzheng Bu, Shaojun Guo, Xu Zhang, Xuan Shen, Dong Su, Gang Lu, Xing Zhu, Jianlin Yao, Jun Guo, Xiaoqing Huang
Formato: article
Lenguaje:EN
Publicado: Nature Portfolio 2016
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Acceso en línea:https://doaj.org/article/00a94816f1b247e7b30386d5dc840abf
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spelling oai:doaj.org-article:00a94816f1b247e7b30386d5dc840abf2021-12-02T15:34:57ZSurface engineering of hierarchical platinum-cobalt nanowires for efficient electrocatalysis10.1038/ncomms118502041-1723https://doaj.org/article/00a94816f1b247e7b30386d5dc840abf2016-06-01T00:00:00Zhttps://doi.org/10.1038/ncomms11850https://doaj.org/toc/2041-1723Platinum-based nanowires are promising for fuel cell applications due to their high catalytic activity. Here the authors report on hierarchical platinum-cobalt nanowires with high-index facets showing specific/mass activities for oxygen reduction reaction 39.6/33.7 times higher than commercial Pt/C catalyst.Lingzheng BuShaojun GuoXu ZhangXuan ShenDong SuGang LuXing ZhuJianlin YaoJun GuoXiaoqing HuangNature PortfolioarticleScienceQENNature Communications, Vol 7, Iss 1, Pp 1-10 (2016)
institution DOAJ
collection DOAJ
language EN
topic Science
Q
spellingShingle Science
Q
Lingzheng Bu
Shaojun Guo
Xu Zhang
Xuan Shen
Dong Su
Gang Lu
Xing Zhu
Jianlin Yao
Jun Guo
Xiaoqing Huang
Surface engineering of hierarchical platinum-cobalt nanowires for efficient electrocatalysis
description Platinum-based nanowires are promising for fuel cell applications due to their high catalytic activity. Here the authors report on hierarchical platinum-cobalt nanowires with high-index facets showing specific/mass activities for oxygen reduction reaction 39.6/33.7 times higher than commercial Pt/C catalyst.
format article
author Lingzheng Bu
Shaojun Guo
Xu Zhang
Xuan Shen
Dong Su
Gang Lu
Xing Zhu
Jianlin Yao
Jun Guo
Xiaoqing Huang
author_facet Lingzheng Bu
Shaojun Guo
Xu Zhang
Xuan Shen
Dong Su
Gang Lu
Xing Zhu
Jianlin Yao
Jun Guo
Xiaoqing Huang
author_sort Lingzheng Bu
title Surface engineering of hierarchical platinum-cobalt nanowires for efficient electrocatalysis
title_short Surface engineering of hierarchical platinum-cobalt nanowires for efficient electrocatalysis
title_full Surface engineering of hierarchical platinum-cobalt nanowires for efficient electrocatalysis
title_fullStr Surface engineering of hierarchical platinum-cobalt nanowires for efficient electrocatalysis
title_full_unstemmed Surface engineering of hierarchical platinum-cobalt nanowires for efficient electrocatalysis
title_sort surface engineering of hierarchical platinum-cobalt nanowires for efficient electrocatalysis
publisher Nature Portfolio
publishDate 2016
url https://doaj.org/article/00a94816f1b247e7b30386d5dc840abf
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AT xuzhang surfaceengineeringofhierarchicalplatinumcobaltnanowiresforefficientelectrocatalysis
AT xuanshen surfaceengineeringofhierarchicalplatinumcobaltnanowiresforefficientelectrocatalysis
AT dongsu surfaceengineeringofhierarchicalplatinumcobaltnanowiresforefficientelectrocatalysis
AT ganglu surfaceengineeringofhierarchicalplatinumcobaltnanowiresforefficientelectrocatalysis
AT xingzhu surfaceengineeringofhierarchicalplatinumcobaltnanowiresforefficientelectrocatalysis
AT jianlinyao surfaceengineeringofhierarchicalplatinumcobaltnanowiresforefficientelectrocatalysis
AT junguo surfaceengineeringofhierarchicalplatinumcobaltnanowiresforefficientelectrocatalysis
AT xiaoqinghuang surfaceengineeringofhierarchicalplatinumcobaltnanowiresforefficientelectrocatalysis
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