Temperature dependence of Cu–Al spinel formation and its catalytic performance in methanol steam reforming
Author:
Affiliation:
1. Institute of Coal Chemistry
2. Chinese Academy of Sciences
3. Taiyuan 030001
4. China
5. University of Chinese Academy of Sciences
6. Institute of Applied Chemistry
7. College of Chemistry
8. Nanchang University
9. Nanchang 330031
Abstract
Synthetic temperature strongly influences the properties of Cu1−3xVxAl2+2xO4. Active Cu generated in situ can be stabilized by defect spinels.
Funder
National Natural Science Foundation of China
Publisher
Royal Society of Chemistry (RSC)
Subject
Catalysis
Link
http://pubs.rsc.org/en/content/articlepdf/2017/CY/C7CY01236E
Reference59 articles.
1. Gas storage in porous metal–organic frameworks for clean energy applications
2. Fuel cells, an alternative to standard sources of energy
3. An Overview of the Fuel Cell and Hydrogen Technology Development Policies in Japan
4. N. Hickey , P.Fornasiero and M.Graziani, Renewable Resources and Renewable Energy: A Global Challenge, 2006
5. G. A. Olah , A.Goeppert and G. S.Prakash, Beyond oil and gas: the methanol economy, 2011
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