Plastron effect enhanced electrochemical CO2 reduction activity over hydrophobic three-dimensional nanoporous silver

Yu Xue; Yingming Zhu; Chuan He; Kejing Wu; Yingying Liu; Binshen Wang; Houfang Lu; Bin Liang

doi:10.1039/D4CC00753K

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Plastron effect enhanced electrochemical CO₂ reduction activity over hydrophobic three-dimensional nanoporous silver†

Yu Xue,^a Yingming Zhu,

*^ab Chuan He,^a Kejing Wu,

^b Yingying Liu,^b Binshen Wang,

^b Houfang Lu^ab and Bin Liang

^ab

Author affiliations

* Corresponding authors

^a Low-Carbon Technology and Chemical Reaction Engineering Laboratory, School of Chemical Engineering, Sichuan University, Chengdu 610065, China
E-mail: zhuyingming@scu.edu.cn

^b Institute of New Energy and Low-Carbon Technology, Sichuan University, Chengdu 610207, China

Abstract

The electrochemical reduction of CO₂ on catalyst surfaces is hindered by the inefficient mass transfer of CO₂ in aqueous solutions. In this study, we employed an electrochemical reduction approach to fabricate a hydrophobic three-dimensional nanoporous silver catalyst with a plastron effect, aiming to enhance the CO₂ diffusion. The resulting catalyst exhibited an exceptional performance with the FE_CO peaking at 95% at −0.65 V (vs. RHE) and demonstrated remarkable stability during continuous electrolysis for 48 hours. Control experiments, together with Tafel analysis, EIS measurements, and contact angle results, confirmed that the notable enhancement of performance was attributed to the hydrophobic porous structure that facilitated efficient storage and rapid mass transfer of low-solubility CO₂ gas reactants.

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Article information

DOI: https://doi.org/10.1039/D4CC00753K
Article type: Communication
Submitted: 15 Feb 2024
Accepted: 03 Apr 2024
First published: 09 Apr 2024

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Chem. Commun., 2024,60, 4934-4937

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Plastron effect enhanced electrochemical CO₂ reduction activity over hydrophobic three-dimensional nanoporous silver

Y. Xue, Y. Zhu, C. He, K. Wu, Y. Liu, B. Wang, H. Lu and B. Liang, Chem. Commun., 2024, 60, 4934 DOI: 10.1039/D4CC00753K

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