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Concentrated Ethanol Electrosynthesis from CO2 via a Porous Hydrophobic Adlayer

Electrochemical CO2 reduction can convert waste emissions into dense liquid fuels compatible with existing energy infrastructure. High-rate electrocatalytic conversion of CO2 to ethanol has been achieved in membrane electrode assembly (MEA) electrolyzers; however, ethanol produced at the cathode is...

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Bibliographic Details
Published in:ACS applied materials & interfaces 2022-01, Vol.14 (3), p.4155-4162
Main Authors: Robb, Anthony, Ozden, Adnan, Miao, Rui Kai, O’Brien, Colin P, Xu, Yi, Gabardo, Christine M, Wang, Xue, Zhao, Nana, García de Arquer, F. Pelayo, Sargent, Edward H, Sinton, David
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Language:English
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Summary:Electrochemical CO2 reduction can convert waste emissions into dense liquid fuels compatible with existing energy infrastructure. High-rate electrocatalytic conversion of CO2 to ethanol has been achieved in membrane electrode assembly (MEA) electrolyzers; however, ethanol produced at the cathode is transported, via electroosmotic drag and diffusion, to the anode, where it is diluted and may be oxidized. The ethanol concentrations that result on both the cathodic and anodic sides are too low to justify the energetic and financial cost of downstream separation. Here, we present a porous catalyst adlayer that facilitates the evaporation of ethanol into the cathode gas stream and reduces the water transport, leading to a recoverable stream of concentrated ethanol. The adlayer is comprised of ethylcellulose-bonded carbon nanoparticles and forms a porous, electrically conductive network on the surface of the copper catalyst that slows the transport of water to the gas channel. We achieve the direct production of an ethanol stream of 12.4 wt %, competitive with the concentration of current industrial ethanol production processes.
ISSN:1944-8244
1944-8252
DOI:10.1021/acsami.1c21386