Lattice oxygen activation enabled by high-valence metal sites for enhanced water oxidation

Lattice oxygen activation enabled by high-valence metal sites for enhanced water oxidation

Electrocatalytic water oxidation is facilitated by high valence states, but these are challenging to achieve at low applied potentials. Here, authors report a multicomponent FeCoCrNi alloy with dynamically formed Ni4+ species to offer high catalytic activity via lattice oxygen activation mechanism.

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Autores principales: Ning Zhang, Xiaobin Feng, Dewei Rao, Xi Deng, Lejuan Cai, Bocheng Qiu, Ran Long, Yujie Xiong, Yang Lu, Yang Chai
Formato: article
Lenguaje:EN
Publicado: Nature Portfolio 2020
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Q
Acceso en línea:https://doaj.org/article/04a3f095294344eaaef7336b7b2f8c21
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spelling oai:doaj.org-article:04a3f095294344eaaef7336b7b2f8c212021-12-02T18:50:59ZLattice oxygen activation enabled by high-valence metal sites for enhanced water oxidation10.1038/s41467-020-17934-72041-1723https://doaj.org/article/04a3f095294344eaaef7336b7b2f8c212020-08-01T00:00:00Zhttps://doi.org/10.1038/s41467-020-17934-7https://doaj.org/toc/2041-1723Electrocatalytic water oxidation is facilitated by high valence states, but these are challenging to achieve at low applied potentials. Here, authors report a multicomponent FeCoCrNi alloy with dynamically formed Ni4+ species to offer high catalytic activity via lattice oxygen activation mechanism.Ning ZhangXiaobin FengDewei RaoXi DengLejuan CaiBocheng QiuRan LongYujie XiongYang LuYang ChaiNature PortfolioarticleScienceQENNature Communications, Vol 11, Iss 1, Pp 1-11 (2020)
institution DOAJ
collection DOAJ
language EN
topic Science
Q
spellingShingle Science
Q
Ning Zhang
Xiaobin Feng
Dewei Rao
Xi Deng
Lejuan Cai
Bocheng Qiu
Ran Long
Yujie Xiong
Yang Lu
Yang Chai
Lattice oxygen activation enabled by high-valence metal sites for enhanced water oxidation
description Electrocatalytic water oxidation is facilitated by high valence states, but these are challenging to achieve at low applied potentials. Here, authors report a multicomponent FeCoCrNi alloy with dynamically formed Ni4+ species to offer high catalytic activity via lattice oxygen activation mechanism.
format article
author Ning Zhang
Xiaobin Feng
Dewei Rao
Xi Deng
Lejuan Cai
Bocheng Qiu
Ran Long
Yujie Xiong
Yang Lu
Yang Chai
author_facet Ning Zhang
Xiaobin Feng
Dewei Rao
Xi Deng
Lejuan Cai
Bocheng Qiu
Ran Long
Yujie Xiong
Yang Lu
Yang Chai
author_sort Ning Zhang
title Lattice oxygen activation enabled by high-valence metal sites for enhanced water oxidation
title_short Lattice oxygen activation enabled by high-valence metal sites for enhanced water oxidation
title_full Lattice oxygen activation enabled by high-valence metal sites for enhanced water oxidation
title_fullStr Lattice oxygen activation enabled by high-valence metal sites for enhanced water oxidation
title_full_unstemmed Lattice oxygen activation enabled by high-valence metal sites for enhanced water oxidation
title_sort lattice oxygen activation enabled by high-valence metal sites for enhanced water oxidation
publisher Nature Portfolio
publishDate 2020
url https://doaj.org/article/04a3f095294344eaaef7336b7b2f8c21
work_keys_str_mv AT ningzhang latticeoxygenactivationenabledbyhighvalencemetalsitesforenhancedwateroxidation
AT xiaobinfeng latticeoxygenactivationenabledbyhighvalencemetalsitesforenhancedwateroxidation
AT deweirao latticeoxygenactivationenabledbyhighvalencemetalsitesforenhancedwateroxidation
AT xideng latticeoxygenactivationenabledbyhighvalencemetalsitesforenhancedwateroxidation
AT lejuancai latticeoxygenactivationenabledbyhighvalencemetalsitesforenhancedwateroxidation
AT bochengqiu latticeoxygenactivationenabledbyhighvalencemetalsitesforenhancedwateroxidation
AT ranlong latticeoxygenactivationenabledbyhighvalencemetalsitesforenhancedwateroxidation
AT yujiexiong latticeoxygenactivationenabledbyhighvalencemetalsitesforenhancedwateroxidation
AT yanglu latticeoxygenactivationenabledbyhighvalencemetalsitesforenhancedwateroxidation
AT yangchai latticeoxygenactivationenabledbyhighvalencemetalsitesforenhancedwateroxidation
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