Diffusion trapped oxygen in oxide derived Copper electrocatalyst in CO2 reduction

Abstract: Oxide-derived Cu (OD-Cu) catalysts have shown an excellent ability to ensure C-C coupling in the electrochemical carbon dioxide reduction reaction (eCO2RR). However, these materials extensively rearrange under reaction conditions, thus the nature of the active site remains controversial. Here, we studied the reduction process of OD-Cu via large-scale molecular dynamics at first-principles accuracy introducing experimental conditions. The oxygen concentration in the most stable OD-Cu materials increases with th… Show more

“…The observed oxygen is most likely due to the oxidation of the copper surface during the transfer through air from the electrochemical cell to SEM-EDX. However, a recent theoretical study suggests that oxygen diffuses faster from the bulk to the surface at higher temperatures causing the residual Cu 2 O to be reduced quicker, 60 which might change the nature of the copper catalyst and its selectivity. Similar to the Pb UPD measurements, the SEM images indicated that the surface becomes smoother at higher temperatures ( Figure S25 ).…”

How Temperature Affects the Selectivity of the Electrochemical CO₂ Reduction on Copper

“…The observed oxygen is most likely due to the oxidation of the copper surface during the transfer through air from the electrochemical cell to SEM-EDX. However, a recent theoretical study suggests that oxygen diffuses faster from the bulk to the surface at higher temperatures causing the residual Cu 2 O to be reduced quicker, 60 which might change the nature of the copper catalyst and its selectivity. Similar to the Pb UPD measurements, the SEM images indicated that the surface becomes smoother at higher temperatures ( Figure S25 ).…”

How Temperature Affects the Selectivity of the Electrochemical CO₂ Reduction on Copper