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In Situ Observation of Post‐CO Intermediates to Decode C─C Coupling Pathways in CO <sub>2</sub> Electroreduction

Mingxu Sun, David S. Rivera Rocabado, Jiamin Cheng, Tomohiro Noguchi, Masaki Donoshita, Takahiro Matsuu, Manabu Higashi, Tsuyohiko Fujigaya, Takayoshi Ishimoto, Miho Yamauchi

2025Angewandte Chemie International Edition16 citationsDOIOpen Access PDF

Abstract

Abstract Electrocatalytic carbon dioxide (CO 2 ) reduction reaction (CO 2 RR) has emerged as a promising strategy for sustainable energy conversion and carbon utilization. Despite intensive research efforts, the understanding of intermediates and pathways leading from CO 2 RR to multicarbon (C 2+ ) chemicals remains incomplete. The challenge is to gain insight into the activation of adsorbed CO and the subsequent pathways. Here, we design a specially tailored Cu nanowire array facing a hydrophobic interface as an electrode to highly enhance Raman signals in the in situ environment, allowing sensitive observation of the sequential change of various elusive intermediates during CO 2 RR, such as CO, CH 2 , CO coexisting with CH 2 , CH 2 CO, and CH 3 . Density functional theory calculations reveal that the C─C coupling during CO 2 RR originates from an asymmetric coupling between CH 2 and CO to form CH 2 CO, identified as the rate‐determining step in the formation of C 2+ products. These findings deepen the understanding of the C─C coupling processes, which are crucial for advancing catalyst development in electrochemical CO 2 upgrading.

Topics & Concepts

ElectrochemistryDensity functional theoryCatalysisIn situAdsorptionRedoxCoupling (piping)Raman spectroscopyChemistryElectrochemical reduction of carbon dioxideCombinatorial chemistryCarbon fibersElectrodeNanotechnologyMaterials scienceComputational chemistryCarbon monoxideInorganic chemistryOrganic chemistryPhysical chemistryComposite materialMetallurgyPhysicsComposite numberOpticsCO2 Reduction Techniques and CatalystsIonic liquids properties and applicationsElectrocatalysts for Energy Conversion