Abstract

CO2 electroreduction reaction (CO2RR) offers a promising route to scale up CO2-to-CO using renewable electricity and close the anthropogenic carbon cycle. To date, the undesirable hydrogen evolution reaction (HER) still occurs at the catalyst surface in CO2RR, diminishing CO2-to-CO production. In this work, we introduced silica on Ni to create active Ni-SiOx interface sites and prepared silica-modified nickel nanoparticles on carbon nanotubes (Si-Ni-CNTs-800) as a highly effective electrocatalyst for CO2-to-CO over a wide potential range. The catalyst achieved high CO Faradaic efficiency (FECO) of > 90 % in a wide potential range from −0.6 to −1.1 V vs RHE with a maximum FECO of 98 % at −0.9 V vs RHE with a CO partial current density of 21.5 mA cm−2 by using standard H-type cell, and the catalyst could be used stably at least 12 h. With the support of X-ray absorption fine structure (EXAFS) and spectroscopic analysis, we demonstrated that the chemical bonds of Si-C and O-Si-C in the catalysts favor CO2 activation to form the CO* intermediate and inhibition of HER, finally enhanced CO2-to-CO conversion.

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