▎ 摘　　要

Efficient electrochemical reduction of CO2 to ethanol is a promising approach for obtaining high-density renewable energy storage and relieving environment stress. In this paper, we report the highly efficient electrochemical reduction of CO2 to ethanol by using Cu nanoparticles decorated on pyridoxine modification graphene oxide sheets (GO-VB6-Cu) as robust electrocatalysts. CO2 was efficiently reduced to ethanol in 0.1M KHCO3 solution by using GO-VB6-Cu-2 catalyst at an overpotential as low as 0.140 V. The maximum Faradaic efficiency for ethanol formation of 56.3% was obtained at the potential of -0.250 V vs. the reversible hydrogen electrode. The resultant nanocomposite presented no degradation after approximately 24 h of continuous operation, demonstrating the pronounced stability of the electrode. The notable reactivity toward CO2 reduction achieved here can be ascribed to large electrochemically active surface area, enhanced CO2 adsorption, and low electron transfer resistance.