Selectivity Map for the Late Stages of CO and CO2 Reduction to C2 Species on Cu Electrodes
Ikusi/ Ireki
Data
2021-02-01Egilea
Piqué, Oriol
Low, Qi Hang
Handoko, Albertus D.
Yeo, Boon Siang
Calle Vallejo, Federico
Angewandte Chemie 133(19) : 10879-10885 (2021)
Laburpena
The electrochemical CO and CO2 reduction reactions (CORR and CO2RR) using copper catalysts and renewable electricity hold promise as a carbon-neutral route to produce commodity chemicals and fuels. However, the exact mechanisms and structure sensitivity of Cu electrodes toward C2 products are still under debate. Herein, we investigate ethylene oxide reduction (EOR) as a proxy to the late stages of
CORR to ethylene, and the results are compared to those of acetaldehyde reduction to ethanol. DFT calculations show that ethylene oxide undergoes ring opening before exclusively reducing to ethylene via *OH formation. A selectivity map for the late stages of CORR and CO2RR based on generalized coordination numbers ( CN ) shows that sites with moderate coordination ( 5.9 < CN < 7.5 ) are efficient for ethylene production, with pristine Cu(100) being more active than defective surfaces such as Cu(311). In contrast, kinks and edges are more active for ethanol production, and (111) terraces are relatively inert.