Issue 26, 2022

Electrodeposited Sn–Cu@Sn dendrites for selective electrochemical CO2 reduction to formic acid

Abstract

Large-scale CO2 electrolysis can be applied to store renewable energy in chemicals. Recent developments in gas diffusion electrodes now enable a commercially relevant current density. However, the low selectivity of the CO2 reduction reaction (CO2RR) still hinders practical applications. The selectivity of the CO2RR highly depends on the electrocatalyst. Sn catalysts are considered promising cathode materials for the production of formic acid. The selectivity of Sn catalysts can be regulated by controlling their morphology or alloying them with secondary metals. Herein, we enhanced the selectivity of CO2 reduction to formic acid by synthesizing Sn–Cu@Sn dendrites that have a core@shell architecture. The Sn–Cu@Sn dendrites were prepared by a scalable electro-deposition method. The electronic structure was modified to suppress a reaction pathway for CO production on the Sn surface. Notably, the Sn shell inhibited the cathodic corrosion of Cu during the CO2RR. On a gas diffusion electrode, the Sn–Cu@Sn dendrites exhibited 84.2% faraday efficiency to formic acid for 120 h with high stability.

Graphical abstract: Electrodeposited Sn–Cu@Sn dendrites for selective electrochemical CO2 reduction to formic acid

Supplementary files

Article information

Article type
Paper
Submitted
22 Marts 2022
Accepted
02 Jūn. 2022
First published
02 Jūn. 2022

Nanoscale, 2022,14, 9297-9303

Electrodeposited Sn–Cu@Sn dendrites for selective electrochemical CO2 reduction to formic acid

J. Lim, A. T. Garcia-Esparza, J. W. Lee, G. Kang, S. Shin, S. S. Jeon and H. Lee, Nanoscale, 2022, 14, 9297 DOI: 10.1039/D2NR01563C

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