Published in
Royal Society of Chemistry, Journal of Materials Chemistry A: materials for energy and sustainability, 48(7), p. 27576-27584, 2019
DOI: 10.1039/c9ta10135g
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Understanding three-dimensionally interconnected porous oxide-derived copper electrocatalyst for selective carbon dioxide reduction
Journal article published in 2019 by
Thuy-Duong Nguyen-Phan 
,
Congjun Wang,
Chris M. Marin,
Yunyun Zhou,
Eli Stavitski,
Eric J. Popczun,
Yang Yu,
Wenqian Xu,
Bret H. Howard,
Mengling Y. Stuckman,
Iradwikanari Waluyo ,
Paul R. Ohodnicki,
Douglas R. Kauffman
,
Congjun Wang,
Chris M. Marin,
Yunyun Zhou,
Eli Stavitski,
Eric J. Popczun,
Yang Yu,
Wenqian Xu,
Bret H. Howard,
Mengling Y. Stuckman,
Iradwikanari Waluyo ,
Paul R. Ohodnicki,
Douglas R. Kauffman
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Abstract
The synergy between 3D interconnected porous network and dominant Cu(111) orientation of CuO-derived copper inverse opal catalysts has favored CO formation, significantly suppressed H2 evolution, and exhibited good 24 hour stability.