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Electrocatalytic CO2 reduction (CO2ER) to valuable chemicals, for example, HCOOH have received widespread attention, which still suffers from moderate Faradaic efficiency with low current regarding the wide industrial application of HCOOH. Herein, we employed a strategy of modifying electronic metal‐support interaction (EMSI) by fabricating Bi nanoparticles supported Ni‐modified Bi2O2CO3 (Bi/Ni‐BOC)...
Electrochemical CO2 reduction to formate offers a mild and feasible pathway for the utilization of CO2, and bismuth is a promising metal for its unique hydrogen evolution reaction inhibition. Reported works of Bi‐based electrodes generally exhibit high selectivity while suffering from relatively narrow working potential range. From the perspective of electronic modification engineering, B‐doped Bi...
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