Electrochemical reduction of CO2 using supported Cu2O catalysts
Document Type
Conference Proceeding
Publication Date
1-1-2013
Abstract
We have studied the electrochemical reduction of to CO2 produce short chain hydrocarbons and alcohols using supported Cu2O electrocatalysts. The catalysts are prepared using Cu2O nanoparticles formed by chemical reduction of aqueous CuCl2 mixed with polyethylene glycol surfactant, followed by addition of NaOH and L-ascorbic acid (sodium). The nanoparticles are then added to a Nafion/ethanol solution and coated onto a carbon fiber support. When tested used for CO2 electroreduction at -1.5 V(NHE), the Cu2O particles are reduced to metallic Cu, but the hydrocarbon product distribution remains different from that reported for conventional metallic Cu electrodes. Ethylene is the major hydrocarbon produced, with a Faradaic efficiency around 25%, while the efficiency for CH4 formation is reduced to around 1%. The major alcohol product is ethanol, with a Faradaic efficiency around 6%. The relative formation rates of the individual products are discussed in terms of the relevant branch points in recent computational models for the overall reaction mechanism. © 2013 Materials Research Society.
Publication Source (Journal or Book title)
Materials Research Society Symposium Proceedings
First Page
55
Last Page
60
Recommended Citation
Bugayong, J., & Griffin, G. (2013). Electrochemical reduction of CO2 using supported Cu2O catalysts. Materials Research Society Symposium Proceedings, 1542, 55-60. https://doi.org/10.1557/opl.2013.833