Recent studies have witnessed the great prospect of bi-atom catalysts (BACs) in realizing effective electrocatalytic CO2 reduction. However, the precisely controllable syntheses of BACs with outstanding properties remain a significant challenge. Herein, the first bi-atom Fe/Mn-N-C catalyst for CO2 reduction was successfully developed by the co-carbonization of Fe/Mn co-doped ZIF-8 (Fe/Mn@ZIF-8) and carbon black. This strategy enhances the conductivity and induces the confinement effect of carbon supports, which contributes to anchoring trace Fe/Mn dual sites on hierarchically porous N-doped carbon. The bimetallic Fe/Mn-N-C catalyst exhibits an excellent CO faradaic efficiency of 95.7% at a low overpotential of 370 mV vs. RHE. DFT results reveal that the coexistence of trace Mn sites can strengthen the catalytic capabilities of Fe active sites in bimetallic Fe/Mn-N-C. The synergistic effect of ultralow-loaded Fe/Mn dual sites is favorable for the adsorption and activation of CO2 as well as *CO desorption from Fe active sites, boosting the entire CO2-to-CO transformation. This work provides valuable insight into the rational design of BACs for efficient CO2 electroreduction.

• 单位
  中国科学院福建物质结构研究所; 南昌航空大学