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Issue 17, 2017
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Joint tuning of nanostructured Cu-oxide morphology and local electrolyte programs high-rate CO2 reduction to C2H4

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Abstract

Electrochemical ethylene production rates are enhanced by pushing favourable local electrolyte conditions to occur at higher current densities and lower relative overpotentials. In particular the combined influences of electrode morphology and buffering on electrode pH and CO2 conditions are assessed.

Graphical abstract: Joint tuning of nanostructured Cu-oxide morphology and local electrolyte programs high-rate CO2 reduction to C2H4

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Article information


Submitted
07 Jun 2017
Accepted
31 Jul 2017
First published
31 Jul 2017

Green Chem., 2017,19, 4023-4030
Article type
Communication

Joint tuning of nanostructured Cu-oxide morphology and local electrolyte programs high-rate CO2 reduction to C2H4

Y. Pang, T. Burdyny, C. Dinh, M. G. Kibria, J. Z. Fan, M. Liu, E. H. Sargent and D. Sinton, Green Chem., 2017, 19, 4023
DOI: 10.1039/C7GC01677H

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