Active sites in CO2 hydrogenation over confined VOx-Rh catalysts

被引:0
|
作者
Guishuo Wang
Ran Luo
Chengsheng Yang
Jimin Song
Chuanye Xiong
Hao Tian
Zhi-Jian Zhao
Rentao Mu
Jinlong Gong
机构
[1] Tianjin University; Collaborative Innovation Center of Chemical Science and Engineering,Key Laboratory for Green Chemical Technology of Ministry of Education, School of Chemical Engineering and Technology
来源
Science China Chemistry | 2019年 / 62卷
关键词
interfacial active sites; CO; hydrogenation; ethanol; Rh-based catalysts; confined catalysts;
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学科分类号
摘要
Metal oxide-promoted Rh-based catalysts have been widely used for CO2 hydrogenation, especially for the ethanol synthesis. However, this reaction usually suffers low CO2 conversion and alcohols selectivity due to the formation of byproducts methane and CO. This paper describes an efficient vanadium oxide promoted Rh-based catalysts confined in mesopore MCM-41. The Rh-0.3VOx/MCM-41 catalyst shows superior conversion (~12%) and ethanol selectivity (~24%) for CO2 hydrogenation. The promoting effect can be attributed to the synergism of high Rh dispersion by the confinement effect of MCM-41 and the formation of VOx-Rh interface sites. Experimental and theoretical results indicate the formation of til-CO at VOx-Rh interface sites is easily dissociated into *CHx, and then *CHx can be inserted by CO to form CH3CO*, followed by CH3CO* hydrogenation to ethanol.
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页码:1710 / 1719
页数:9
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