Bracelet-Like Ni0.4Cu0.6O Microstructure Composed of Well-Aligned Nanoplatelets as a Superior Catalyst to the Hydrolysis of Ammonia Borane

The development of novel catalysts with both high catalytic activity and low cost toward the hydrolysis of ammonia borane is an important subject in the field of hydrogen energy. In this communications, NixCu1-xO microstructures with different morphology have been synthesized and their catalytic act...

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Published inFrontiers in chemistry Vol. 7; p. 776
Main Authors Li, Xianfeng, Gui, Liucheng, Zou, Huahong
Format Journal Article
LanguageEnglish
Published Frontiers Media S.A 14.11.2019
Subjects
ammonia borane
Chemistry
heterogeneous catalysis
hydrogen production
hydrolysis
nanoplatelets
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Summary:The development of novel catalysts with both high catalytic activity and low cost toward the hydrolysis of ammonia borane is an important subject in the field of hydrogen energy. In this communications, NixCu1-xO microstructures with different morphology have been synthesized and their catalytic activities in AB hydrolysis is studied. It's found that bracelet-like nanoplatelets were obtained at x = 0.4 and exhibit highest catalytic performance with turnover frequency of 33.43 molhydrogen min-1 mol cat - 1 , which much higher than those of most of CuNi-based catalysts in the literature. Pronounced synergistic effects between CuO and NiO in AB hydrolysis also have been observed. Due to the superior catalytic performance and cheapness, the prepared bracelet-like nanoplatelets Ni0.4Cu0.6O catalysts can be a strong catalyst candidate in AB hydrolysis.The development of novel catalysts with both high catalytic activity and low cost toward the hydrolysis of ammonia borane is an important subject in the field of hydrogen energy. In this communications, NixCu1-xO microstructures with different morphology have been synthesized and their catalytic activities in AB hydrolysis is studied. It's found that bracelet-like nanoplatelets were obtained at x = 0.4 and exhibit highest catalytic performance with turnover frequency of 33.43 molhydrogen min-1 mol cat - 1 , which much higher than those of most of CuNi-based catalysts in the literature. Pronounced synergistic effects between CuO and NiO in AB hydrolysis also have been observed. Due to the superior catalytic performance and cheapness, the prepared bracelet-like nanoplatelets Ni0.4Cu0.6O catalysts can be a strong catalyst candidate in AB hydrolysis.
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Reviewed by: Yaocai Bai, Oak Ridge National Laboratory (DOE), United States; Wei Luo, Wuhan University, China; Hui Wang, Qingdao University of Science and Technology, China
Edited by: Quanbing Liu, Guangdong University of Technology, China
This article was submitted to Catalysis and Photocatalysis, a section of the journal Frontiers in Chemistry
ISSN:2296-2646
2296-2646
DOI:10.3389/fchem.2019.00776