Frontispiece: Supported Rhodium Catalysts for Ammonia–Borane Hydrolysis: Dependence of the Catalytic Activity on the Highest Occupied State of the Single Rhodium Atoms | Zendy

Wang Liangbing | Zendy; Li Hongliang | Zendy; Zhang Wenbo | Zendy; Zhao Xiao | Zendy; Qiu Jianxiang | Zendy; Li Aowen | Zendy; Zheng Xusheng | Zendy; Hu Zhenpeng | Zendy; Si Rui | Zendy; Zeng Jie | Zendy

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Frontispiece: Supported Rhodium Catalysts for Ammonia–Borane Hydrolysis: Dependence of the Catalytic Activity on the Highest Occupied State of the Single Rhodium Atoms

Author(s) -

Wang Liangbing,

Li Hongliang,

Zhang Wenbo,

Zhao Xiao,

Qiu Jianxiang,

Li Aowen,

Zheng Xusheng,

Hu Zhenpeng,

Si Rui,

Zeng Jie

Publication year - 2017

Publication title -

angewandte chemie international edition

Language(s) - English

Resource type - Reports

SCImago Journal Rank - 5.831

H-Index - 550

eISSN - 1521-3773

pISSN - 1433-7851

DOI - 10.1002/anie.201781761

Subject(s) - rhodium , ammonia borane , catalysis , chemistry , ammonia , hydrolysis , nanorod , borane , atom (system on chip) , crystallography , materials science , nanotechnology , organic chemistry , dehydrogenation , computer science , embedded system

Single‐Atom Catalysts In their Communication on page 4712 ff., Z. Hu, R. Si, J. Zeng et al. show that the activity of a catalyst consisting of isolated Rh atoms dispersed on VO 2 nanorods depends on the highest occupied state of the Rh atoms.

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