Abstract
Reducing the dimension and creating defects are effective approaches to increase the active sites of catalysts. Herein, the defective ZnInOx/NCF catalyst was successfully prepared under the inspiration of 3D porous structure of melamine sponge. The functionalized ZnInOx/NCF features larger electrochemical active surface area, higher carbon dioxide adsorption capacity and faster charge transfer rate, which is conducive to electrochemical reduction CO2 to HCOO-. ZnInOx/NCF exhibits the highest Faradaic efficiency (FE) of 90.5% for HCOO- production at a moderate overpotential of 0.9 V with a good stability. The study of catalysts structure and reaction mechanisms demonstrate that the superior activity is attributed to the synergistic effect among the MS-derived NCF conductive matrix and the reduced dimensionality and abundant defects of ZnInOx.
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