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CO electrolysis to multicarbon products over grain boundary-rich Cu nanoparticles in membrane electrode assembly electrolyzers

Hefei Li, Pengfei Wei, Tianfu Liu, Mingrun Li, Chao Wang, Rongtan Li, Jinyu Ye, Zhi‐You Zhou, Shi‐Gang Sun, Qiang Fu, Dunfeng Gao, Guoxiong Wang, Xinhe Bao

2024Nature Communications57 citationsDOIOpen Access PDF

Abstract

Abstract Producing valuable chemicals like ethylene via catalytic carbon monoxide conversion is an important nonpetroleum route. Here we demonstrate an electrochemical route for highly efficient synthesis of multicarbon (C 2+ ) chemicals from CO. We achieve a C 2+ partial current density as high as 4.35 ± 0.07 A cm −2 at a low cell voltage of 2.78 ± 0.01 V over a grain boundary-rich Cu nanoparticle catalyst in an alkaline membrane electrode assembly (MEA) electrolyzer, with a C 2+ Faradaic efficiency of 87 ± 1% and a CO conversion of 85 ± 3%. Operando Raman spectroscopy and density functional theory calculations reveal that the grain boundaries of Cu nanoparticles facilitate CO adsorption and C − C coupling, thus rationalizing a qualitative trend between C 2+ production and grain boundary density. A scale-up demonstration using an electrolyzer stack with five 100 cm 2 MEAs achieves high C 2+ and ethylene formation rates of 118.9 mmol min −1 and 1.2 L min −1 , respectively, at a total current of 400 A (4 A cm −2 ) with a C 2+ Faradaic efficiency of 64%.

Topics & Concepts

ElectrolysisFaraday efficiencyMaterials scienceGrain boundaryChemical engineeringNanoparticleElectrodeMembrane electrode assemblyCatalysisElectrochemistryAdsorptionMembraneRaman spectroscopyCarbon monoxideNanotechnologyElectrolyteChemistryMicrostructureMetallurgyPhysical chemistryOrganic chemistryBiochemistryOpticsEngineeringPhysicsCO2 Reduction Techniques and CatalystsElectrocatalysts for Energy ConversionIonic liquids properties and applications
CO electrolysis to multicarbon products over grain boundary-rich Cu nanoparticles in membrane electrode assembly electrolyzers | Litcius