CO2 hydrogenation to methanol on tungsten-doped Cu/CeO2 catalysts

Yan Y. ¹Wong R.J. ¹Saqline S. ¹Fan Q. ¹Liu W. ¹Lapkin A.A. ²Ma Z. ³Chen W. ³Donat F. ⁴Muller C.R. ⁴Xi S. ⁵Du Y. ⁵Borgna A. ⁵He Q.⁶

扫码查看

作者信息

1. School of Chemical and Biomedical Engineering Nanyang Technological University
2. Cambridge Centre for Advanced Research and Education
3. Department of Chemistry National University Singapore
4. Department of Mechanical and Process Engineering ETH Zurich
5. Institute of Chemical and Engineering Sciences Agency for Science Technology and Research
6. Department of Materials Science and Engineering National University Singapore
折叠

Abstract

? 2022 Elsevier B.V.The catalytic hydrogenation of CO2 to methanol depends significantly on the structures of metal-oxide interfaces. We show that doping a high-valency metal, viz. tungsten, to CeO2 could render improved catalytic activity for the hydrogenation of CO2 on a Cu/CeW0.25Ox catalyst, whilst making it more selective towards methanol than the undoped Cu/CeO2. We experimentally investigated and elucidated the structural-functional relationship of the Cu/CeO2 interface for CO2 hydrogenation. The promotional effects are attributed to the irreversible reduction of Ce4+ to Ce3+ by W-doping, the suppression of the formation of redox-active oxygen vacancies on CeO2, and the activation of the formate pathway for CO2 hydrogenation. This catalyst design strategy differs fundamentally from those commonly used for CeO2-supported catalysts, in which oxygen vacancies with high redox activity are considered desirable.

Key words

Ceria/CO2/Hydrogenation/Metal-support interface/Methanol/Oxygen vacancy

引用本文复制引用

出版年

2022

Applied Catalysis

ISSN：0926-3373

被引量39

参考文献量79

段落导航