Issue 17, 2023

Hydroxyl reduced silver nanoparticles on ultrathin boron imidazolate framework nanosheets for electrocatalytic CO2 reduction

Abstract

Electrocatalytic carbon dioxide reduction reaction (CO2RR) is a promising strategy to mitigate the greenhouse gas effect. The implementation of such a technique highly depends on efficient electrocatalysts. Here, we report a composite catalyst of Ag@BIF-73NSs, prepared by loading Ag nanoparticles on boron imidazolate framework (BIF) nanosheets (BIF-73NSs) through the hydroxyl functional group of the organic ligand in BIF-73NSs, as an electrocatalyst for electroreduction of CO2 to CO. In the obtained Ag@BIF-73NSs catalysts, ultrasmall Ag nanoparticles (∼2 nm) were evenly dispersed on the ultrathin 2D BIF-73 nanosheets with a thickness of ∼2 nm. Electrocatalytic results clearly demonstrated that Ag@BIF-73NSs exhibits much higher performance for electrocatalytic reduction of CO2 to CO with a FE close to 90%, which is comparable to those of pure Ag, but comparatively at much lower Ag loading (Ag, 3.39 wt%). Moreover, the mass current density of Ag@BIF-73NSs (1816.67 A cm−2 g−1 Ag, ICP-AES 3.39 wt% Ag) is 1101-fold higher than that of Ag@graphene (1.65 A cm−2 g−1 Ag, ICP-AES 57.13 wt% Ag) sheet composites. These results indicate that Ag@BIF-73NSs achieves highly selective CO generation with low metal Ag loading in electrochemical CO2RR catalysis by evenly loading Ag nanoparticles on ultrathin boron imidazolate framework nanosheets through coordination effects.

Graphical abstract: Hydroxyl reduced silver nanoparticles on ultrathin boron imidazolate framework nanosheets for electrocatalytic CO2 reduction

Supplementary files

Article information

Article type
Paper
Submitted
05 میٔ 2023
Accepted
03 جوٗلایی 2023
First published
26 جوٗلایی 2023

Sustainable Energy Fuels, 2023,7, 4120-4126

Hydroxyl reduced silver nanoparticles on ultrathin boron imidazolate framework nanosheets for electrocatalytic CO2 reduction

P. Shao, L. Yi, J. Chen, C. Cao, H. Zhang and J. Zhang, Sustainable Energy Fuels, 2023, 7, 4120 DOI: 10.1039/D3SE00587A

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