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- Kwon, Youngkook
- Electrochemistry Lab for Energy and Environment
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Effect of mass transfer and kinetics in ordered Cu-mesostructures for electrochemical CO2 reduction
- Author(s)
- Song, Hakhyeon, Im, Mintaek, Song, Jun Tae, Lim, Jung-Ae, Kim, Beom-Sik, Kwon, Youngkook, Ryu, Sangwoo, Oh, Jihun
- Issued Date
- 2018-09
- Citation
- APPLIED CATALYSIS B-ENVIRONMENTAL, v.232, pp.391 - 396
- Abstract
- Mass transfer, kinetics, and mechanism of electrochemical CO2 reduction have been explored on a model mesostructure of highly-ordered copper inverse opal (Cu-IO), which was fabricated by Cu electrodeposition in a hexagonally-closed packed polystyrene template. As the number of Cu-IO layers increases, the formation of C-2 products such as C2H4 and C2H5OH was significantly enhanced at reduced overpotentials (similar to 200 mV) compared to a planar Cu electrode. At the thickest layer, we observe for the first time the formation of acetylene (C2H2), which can be generated through a kinetically slow reaction pathway and be a key descriptor in the unveiling of the C-C coupling reaction mechanism. Based on our experimental observation, a plausible reaction pathway in Cu mesostructures is rationalized.
- Publisher
- ELSEVIER SCIENCE BV
- ISSN
- 0926-3373
- Keyword (Author)
- CO2 reduction, Electrocatalysis, Cu mesostructure, Inverse opal, Acetylene
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