Publication | Closed Access
Selectivity of CO<sub>2</sub> Reduction on Copper Electrodes: The Role of the Kinetics of Elementary Steps
907
Citations
17
References
2013
Year
EngineeringOrganometallic ElectrochemistryChemistryTheoretical ElectrochemistryChemical EngineeringOrganic ElectrochemistryElectrode Reaction MechanismWater SolvationMaterials ScienceMolecular ElectrochemistrySurface ElectrochemistryCatalysisHydrogenElectrochemistryElementary StepsRight PathElectrosynthesisCopper ElectrodesChemical KineticsNew PathElectrochemical Surface Science
On the right path: Based on DFT calculations (incorporating the role of water solvation) of the activation barriers of elementary steps, a new path that leads to methane and ethylene for CO(2) electroreduction on Cu(111) was identified. Methane formation proceeds through reduction of CO to COH (path II, see picture), which leads to CH(x) species that can produce both methane and ethylene, as observed experimentally.
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