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Copper sulfide derived nanoparticles supported on carbon for the electrochemical reduction of carbon dioxide

Christina H. M. van Oversteeg, Marisol Tapia Rosales, Kristiaan H. Helfferich, Mahnaz Ghiasi, Johannes D. Meeldijk, Nienke J. Firet, Peter Ngene, Celso de Mello Donegá, Petra E. de Jongh

2020Catalysis Today33 citationsDOIOpen Access PDF

Abstract

The electrocatalytic reduction of CO2 to produce sustainable fuels and chemicals is attracting great attention. Cu-based catalysts can lead to the production of a range of different molecules, and interestingly the product selectivity strongly depends on the preparation history, although it is not fully understood yet why. We report a novel strategy that allowed us to prepare Cu nanoparticle on carbon catalysts with similar morphologies, but prepared by in-situ reduction of either supported CuS, Cu2S or CuO nanoparticles. For the first time the evolution of the Cu species was followed under CO2 and H+ reduction conditions using in-situ X-ray absorption spectroscopy. Excellent electrochemical contact between the Cu-based nanoparticles, the carbon support and the carbon-paper substrate was observed, resulting in metallic Cu as the predominant phase under typical electrochemical CO2 reduction conditions. Even covering less than 4% of the H2 producing carbon support with Cu-sulfide derived nanoparticles allowed to steer the selectivity to a maximum of 12% Faradaic efficiency for the production of formate. Clear differences between the catalysts derived from CuS, Cu2S or CuO nanoparticles were observed, which was ascribed to the presence of residual sulfur in the catalysts.

Topics & Concepts

Electrochemical reduction of carbon dioxideCatalysisNanoparticleElectrochemistryCarbon fibersSulfideFaraday efficiencyFormateInorganic chemistrySelectivityCopper sulfideChemical engineeringCopperMaterials scienceChemistryNanotechnologyCarbon monoxideElectrodeOrganic chemistryComposite numberComposite materialEngineeringPhysical chemistryCO2 Reduction Techniques and CatalystsIonic liquids properties and applicationsElectrocatalysts for Energy Conversion
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