Publication | Open Access
CO residence time modulates multi-carbon formation rates in a zero-gap Cu based CO<sub>2</sub> electrolyzer
15
Citations
53
References
2024
Year
Materials ScienceCo Residence TimeChemical EngineeringCarbon SequestrationFlow Field DesignsZero Gap CopperEngineeringCarbonizationEnvironmental EngineeringCarbon Dioxide ElectrolyzerMulti-carbon Formation RatesChemistryElectrochemical ProcessElectrochemical CellZero-gap CuElectrolysis Of WaterElectrochemistryElectrode Reaction Mechanism
This study shows how flow field designs can be used to modulate CO concentrations and hydrocarbon production rates in a zero gap copper based carbon dioxide electrolyzer.
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