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Strongly Coupled Ag/Sn–SnO2 Nanosheets Toward CO2 Electroreduction to Pure HCOOH Solutions at Ampere-Level Current

Min Zhang, Amin Cao, Yucui Xiang, Chaogang Ban, Guang Han, Junjie Ding, Li‐Yong Gan, Xiaoyuan Zhou

2023Nano-Micro Letters42 citationsDOIOpen Access PDF

Abstract

Abstract Electrocatalytic reduction of CO 2 converts intermittent renewable electricity into value-added liquid products with an enticing prospect, but its practical application is hampered due to the lack of high-performance electrocatalysts. Herein, we elaborately design and develop strongly coupled nanosheets composed of Ag nanoparticles and Sn–SnO 2 grains, designated as Ag/Sn–SnO 2 nanosheets (NSs), which possess optimized electronic structure, high electrical conductivity, and more accessible sites. As a result, such a catalyst exhibits unprecedented catalytic performance toward CO 2 -to-formate conversion with near-unity faradaic efficiency (≥ 90%), ultrahigh partial current density (2,000 mA cm −2 ), and superior long-term stability (200 mA cm −2 , 200 h), surpassing the reported catalysts of CO 2 electroreduction to formate. Additionally, in situ attenuated total reflection-infrared spectra combined with theoretical calculations revealed that electron-enriched Sn sites on Ag/Sn–SnO 2 NSs not only promote the formation of *OCHO and alleviate the energy barriers of *OCHO to *HCOOH, but also impede the desorption of H*. Notably, the Ag/Sn–SnO 2 NSs as the cathode in a membrane electrode assembly with porous solid electrolyte layer reactor can continuously produce ~ 0.12 M pure HCOOH solution at 100 mA cm −2 over 200 h. This work may inspire further development of advanced electrocatalysts and innovative device systems for promoting practical application of producing liquid fuels from CO 2 .

Topics & Concepts

ElectrolyteFormateCatalysisChemical engineeringMaterials scienceFaraday efficiencyConductivityElectrodeCathodeOverlayerNanotechnologyNanoparticleChemistryPhysical chemistryOrganic chemistryEngineeringCO2 Reduction Techniques and CatalystsAdvanced battery technologies researchIonic liquids properties and applications
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