Janus Nanocages of Platinum-Group Metals and Their Use as Effective Dual-Electrocatalysts

Jiawei Zhu; Lang Xu; Zhiheng Lyu; Minghao Xie; Ruhui Chen; Wanqin Jin; Manos Mavrikakis; Younan Xia

doi:10.1002/anie.202102275

Janus Nanocages of Platinum-Group Metals and Their Use as Effective Dual-Electrocatalysts

Jiawei Zhu, Lang Xu, Zhiheng Lyu, Minghao Xie, Ruhui Chen, Wanqin Jin, Manos Mavrikakis, Younan Xia

化工学院

科研成果: 期刊稿件 › 文章 › 同行评审

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摘要

Janus nanocages with distinctive platinum-group metals on the outer and inner surfaces can naturally catalyze at least two different reactions. Here we report a general method based on successive deposition and then selective etching for the facile synthesis of such nanocages. We have fabricated 11 different types of Janus nanocages characterized by a uniform size and well-defined {100} facets, together with porous, ultrathin, asymmetric walls up to 1.6 nm thick. When tested as dual-electrocatalysts toward oxygen reduction and evolution reactions, the Janus nanocages based on Pt and Ir exhibited superior activities depending on the thickness and relative position of the metal layer. Density functional theory studies suggest that the alloy composition and surface structure of the nanocages both play important roles in enhancing the electrocatalytic activities by modulating the stability of key reaction intermediates.

源语言	英语
页（从-至）	10384-10392
页数	9
期刊	Angewandte Chemie - International Edition
卷	60
期	18
DOI	https://doi.org/10.1002/anie.202102275
出版状态	已出版 - 26 4月 2021

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abstract = "Janus nanocages with distinctive platinum-group metals on the outer and inner surfaces can naturally catalyze at least two different reactions. Here we report a general method based on successive deposition and then selective etching for the facile synthesis of such nanocages. We have fabricated 11 different types of Janus nanocages characterized by a uniform size and well-defined {100} facets, together with porous, ultrathin, asymmetric walls up to 1.6 nm thick. When tested as dual-electrocatalysts toward oxygen reduction and evolution reactions, the Janus nanocages based on Pt and Ir exhibited superior activities depending on the thickness and relative position of the metal layer. Density functional theory studies suggest that the alloy composition and surface structure of the nanocages both play important roles in enhancing the electrocatalytic activities by modulating the stability of key reaction intermediates.",

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AU - Zhu, Jiawei

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AU - Lyu, Zhiheng

AU - Xie, Minghao

AU - Chen, Ruhui

AU - Jin, Wanqin

AU - Mavrikakis, Manos

AU - Xia, Younan

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N2 - Janus nanocages with distinctive platinum-group metals on the outer and inner surfaces can naturally catalyze at least two different reactions. Here we report a general method based on successive deposition and then selective etching for the facile synthesis of such nanocages. We have fabricated 11 different types of Janus nanocages characterized by a uniform size and well-defined {100} facets, together with porous, ultrathin, asymmetric walls up to 1.6 nm thick. When tested as dual-electrocatalysts toward oxygen reduction and evolution reactions, the Janus nanocages based on Pt and Ir exhibited superior activities depending on the thickness and relative position of the metal layer. Density functional theory studies suggest that the alloy composition and surface structure of the nanocages both play important roles in enhancing the electrocatalytic activities by modulating the stability of key reaction intermediates.

AB - Janus nanocages with distinctive platinum-group metals on the outer and inner surfaces can naturally catalyze at least two different reactions. Here we report a general method based on successive deposition and then selective etching for the facile synthesis of such nanocages. We have fabricated 11 different types of Janus nanocages characterized by a uniform size and well-defined {100} facets, together with porous, ultrathin, asymmetric walls up to 1.6 nm thick. When tested as dual-electrocatalysts toward oxygen reduction and evolution reactions, the Janus nanocages based on Pt and Ir exhibited superior activities depending on the thickness and relative position of the metal layer. Density functional theory studies suggest that the alloy composition and surface structure of the nanocages both play important roles in enhancing the electrocatalytic activities by modulating the stability of key reaction intermediates.

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Janus Nanocages of Platinum-Group Metals and Their Use as Effective Dual-Electrocatalysts

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