Engineering intricacies of implementing single-atom alloy catalysts for low-temperature electrocatalytic CO2 reduction

Catalysts research for electrocatalytic CO2 reduction reactions (CO2R) has witnessed rapid growth in the last decade. Single-atom alloy catalysts (SAAs), featuring atomically dispersed metal dopants on host metal surfaces, have shown promise in boosting CO2R yield by optimizing the structure and synergy of the catalytic metals at the atomic scale. Despite the exciting development of SAAs for CO2R in fundamental science, dedicated studies for its engineering implementation have been absent. We use this perspective to discuss our non-exhaustive engineering considerations for implementing SAAs for CO2R. The perspective starts with a brief overview of the current research status for SAAs in CO2R, followed by focal points on structure uncertainties associated with catalyst manufacturing, catalyst layer degradation during reaction, and possibilities of SAAs to mitigate the salt precipitation issue at the device level. We hope our opinions will engage rising attention toward the engineering catalysis research for applying SAAs to CO2R at scale.