Boosting methane selectivity in CO 2 electroreduction via rational modulation of Cu 0 –Cu + sites in Cu/Cu 2 O composites
Key Points
Methane conversion efficiency increases with optimized Cu-Cu0 and Cu+ site configurations, leading to enhanced performance.
Key evidence shows that tailored Cu sites in Cu/Cu2O catalysts significantly reduce competing reactions during CO2 reduction.
Analysis examines rational modulation of catalyst sites to achieve higher selectivity for CO2 electroreduction.
This advancement highlights the need for further exploration of catalyst optimization for industrial applications.
Abstract
Tailoring Cu 0 –Cu + sites in Cu/Cu 2 O catalysts significantly improves CO 2 -to-methane conversion efficiency by optimizing intermediate adsorption and suppressing competing reactions.