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Sequential *CO management via controlling in situ reconstruction for efficient industrial-current-density CO <sub>2</sub> -to-C <sub>2+</sub> electroreduction

Mao Wu, Danji Huang, Feili Lai, Ruoou Yang, Yan Liu, Jiakun Fang, Tianyou Zhai, Youwen Liu

2023Proceedings of the National Academy of Sciences33 citationsDOIOpen Access PDF

Abstract

Sequentially managing the coverage and dimerization of *CO on the Cu catalysts is desirable for industrial-current-density CO 2 reduction (CO 2 R) to C 2+ , which required the multiscale design of the surface atom/architecture. However, the oriented design is colossally difficult and even no longer valid due to unpredictable reconstruction. Here, we leverage the synchronous leaching of ligand molecules to manipulate the seeding-growth process during CO 2 R reconstruction and construct Cu arrays with favorable (100) facets. The gradient diffusion in the reconstructed array guarantees a higher *CO coverage, which can continuously supply the reactant to match its high-rate consumption for high partial current density for C 2+ . Sequentially, the lower energy barriers of *CO dimerization on the (100) facets contribute to the high selectivity of C 2+ . Profiting from this sequential *CO management, the reconstructed Cu array delivers an industrial-relevant FE C2+ of 86.1% and an FE C2H4 of 60.8% at 700 mA cm −2 . Profoundly, the atomic-molecular scale delineation for the evolution of catalysts and reaction intermediates during CO 2 R can undoubtedly facilitate various electrocatalytic reactions.

Topics & Concepts

CatalysisLeverage (statistics)Density functional theorySelectivityCurrent densityMoleculeMaterials scienceLeaching (pedology)NanotechnologyChemistryChemical engineeringComputer scienceEnvironmental scienceComputational chemistryPhysicsOrganic chemistrySoil waterMachine learningEngineeringSoil scienceQuantum mechanicsCO2 Reduction Techniques and CatalystsElectrocatalysts for Energy ConversionIonic liquids properties and applications
Sequential *CO management via controlling in situ reconstruction for efficient industrial-current-density CO <sub>2</sub> -to-C <sub>2+</sub> electroreduction | Litcius