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Electroreduction of carbon dioxide to multi-electron reduction products using poly(ionic liquid)-based Cu-Pd catalyst

Xiaoqiang Li, Guo‐Yi Duan, Xian‐Xia Yang, Lijun Han, Bao‐Hua Xu

2022Fundamental Research26 citationsDOIOpen Access PDF

Abstract

Electrocatalytic reduction of CO2 (CO2RR) to multi-electron (> 2e–) products provides a green and sustainable route for producing fuels and chemicals. Introducing the second metal element is a feasible strategy for "managing" the key intermediate on Cu-based materials to further improve the CO2RR catalytic performance. In this work, palladium, which promises the generation of CO, was introduced into the poly(ionic liquid)-based copper hybrid ([email protected]) to construct a novel Cu-Pd bimetallic electrocatalyst ([email protected]@Pd). Remarkably, with a small dosage of palladium (2.0 mol% compared with Cu), a high faradaic efficiency (FE) for C2+ products (68.7%) was achieved at –1.01 V (with respect to the reversible hydrogen electrode (RHE), the same below) with a high partial current density of 178.3 mA cm–2. Meanwhile, high selectivity towards CH4 (FE = 42.5%) and corresponding partial current density of 172.8 mA cm–2 were obtained on the same catalyst at –1.24 V, signifying a significant potential-dependent selectivity. Mechanistic studies reveal that both copper and palladium oxides are reduced to metallic states during the CO2RR. The presence of the adjoint copper phase and the highly dispersed electrostatic layer promote the generation of CO on the palladium components (both the PdO2 phase and the Pd(II) site). Besides, the local CO* was enriched by the significant diffusion resistance of CO in the PIL layer. The spillover of CO* from Pd sites to the adjoint Cu sites, accompanied by the increased local concentration of CO* around Cu sites, accounted for the observed good CO2RR catalytic performance, especially the high C2+ product selectivity.

Topics & Concepts

PalladiumBimetallic stripCatalysisCopperIonic liquidElectrocatalystFaraday efficiencyElectrochemical reduction of carbon dioxideHydrogen spilloverInorganic chemistryIonic bondingMetalRedoxReversible hydrogen electrodeChemistrySelectivityMaterials scienceElectrochemistryChemical engineeringElectrodeCarbon monoxidePhysical chemistryIonOrganic chemistryReference electrodeEngineeringCO2 Reduction Techniques and CatalystsIonic liquids properties and applicationsCarbon dioxide utilization in catalysis
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