Abstract
In this issue of Chem Catalysis , Corral and Lee et al. suggest that bridging the knowledge gap between liquid- and gas-fed CO 2 electrolyzers reveals a better understanding of the local CO 2 reduction reaction environment. A generalized strategy to reduce overpotential and improve catalyst selectivity by modifying surface roughness is offered. In this issue of Chem Catalysis , Corral and Lee et al. suggest that bridging the knowledge gap between liquid- and gas-fed CO 2 electrolyzers reveals a better understanding of the local CO 2 reduction reaction environment. A generalized strategy to reduce overpotential and improve catalyst selectivity by modifying surface roughness is offered.
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