Mesoporous Ni/Ce1−xNixO2−y heterostructure as an efficient catalyst for converting greenhouse gas to H2 and syngas

Jie Deng; Wei Chu; Bo Wang; Wen Yang; X. S. Zhao

doi:10.1039/C5CY00893J

Mesoporous Ni/Ce_1−xNi_xO_2−y heterostructure as an efficient catalyst for converting greenhouse gas to H₂ and syngas†

Jie Deng,^ab Wei Chu,*^a Bo Wang,^b Wen Yang^a and X. S. Zhao*^b

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* Corresponding authors

^a Department of Chemical Engineering, Sichuan University, Chengdu 610065, China
E-mail: chuwei1965@scu.edu.cn

^b Department of Chemical Engineering, University of Queensland, Brisbane 4067, Australia
E-mail: george.zhao@uq.edu.au

Abstract

It has been a great challenge to develop an efficient and stable catalyst for dry reforming of methane with carbon dioxide. A new catalyst was synthesized with the catalytically active component in both the lattice and on the surface of the mesoporous support. A remarkable improvement in the catalytic performance of Ni nanocrystals assembled inside pore channels of mesostructured Ni-doped ceria was observed. The initial activity and long-term stability of the sample substantially surpassed that of samples without the intermixed oxide and/or a nonporous architecture, even though the latter was more available. Such an effect concerning a collaborative function stemming from a mesostructure and solid solution has been rarely reported previously in catalysis involving CeO₂. We believe that this finding might be of a very generic character and be extended to lots of similar fields. It is expected that the results here can spur experimental and theoretical investigation to promote fundamental comprehension of host–guest or metal–oxide interplay in CeO₂-based composite materials.

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Article information

DOI: https://doi.org/10.1039/C5CY00893J
Article type: Paper
Submitted: 16 Jun 2015
Accepted: 25 Aug 2015
First published: 28 Aug 2015

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Catal. Sci. Technol., 2016,6, 851-862

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Mesoporous Ni/Ce_1−xNi_xO_2−y heterostructure as an efficient catalyst for converting greenhouse gas to H₂ and syngas

J. Deng, W. Chu, B. Wang, W. Yang and X. S. Zhao, Catal. Sci. Technol., 2016, 6, 851 DOI: 10.1039/C5CY00893J

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