Springer Nature
Nature Catalysis
volume 1 issue 10 pages 764-771

Improved CO2 reduction activity towards C2+ alcohols on a tandem gold on copper electrocatalyst

Carlos Gilberto Morales Guio 1
Etosha R. Cave 1
Stephanie A Nitopi 1
Jeremy T Feaster 1
Lei Wang 1
Kendra P. Kuhl 1
Ariel Jackson 1
Natalie C Johnson 1
David N. Abram 1
Toru Hatsukade 1
Christopher Hahn 1, 2
Thomas Jaramillo 1, 2
1
 
2
 
Publication typeJournal Article
Publication date2018-10-04
Springer Nature
scimago Q1
wos Q1
SJR14.132
CiteScore57.7
Impact factor44.6
ISSN25201158
Catalysis
Biochemistry
Process Chemistry and Technology
Bioengineering
Abstract
The discovery of materials for the electrochemical transformation of carbon dioxide into liquid fuels has the potential to impact large-scale storage of renewable energies and reduce carbon emissions. Here, we report the discovery of an electrocatalyst composed of gold nanoparticles on a polycrystalline copper foil (Au/Cu) that is highly active for CO2 reduction to alcohols. At low overpotentials, the Au/Cu electrocatalyst is over 100 times more selective for the formation of products containing C–C bonds versus methane or methanol, largely favouring the generation of alcohols over hydrocarbons. A combination of electrochemical testing and transport modelling supports the hypothesis that CO2 reduction on gold generates a high CO concentration on nearby copper, where CO is further reduced to alcohols such as ethanol and n-propanol under locally alkaline conditions. The bimetallic Au/Cu electrocatalyst exhibits synergistic activity and selectivity superior to gold, copper or AuCu alloys, and opens new possibilities for the development of CO2 reduction electrodes exploiting tandem catalysis mechanisms. The electrochemical transformation of CO2 into liquid fuels is a major challenge. Now, Jaramillo, Hahn and co-workers present a Au/Cu catalyst highly active to C2+ alcohols at low overpotentials as a result of a tandem mechanism where CO2 is reduced to CO on Au and further reduced to C2+ alcohols on nearby Cu.
Found 
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Morales Guio C. G. et al. Improved CO2 reduction activity towards C2+ alcohols on a tandem gold on copper electrocatalyst // Nature Catalysis. 2018. Vol. 1. No. 10. pp. 764-771.
GOST all authors (up to 50) Copy
Morales Guio C. G., Cave E. R., Nitopi S. A., Feaster J. T., Wang L., Kuhl K. P., Jackson A., Johnson N. C., Abram D. N., Hatsukade T., Hahn C., Jaramillo T. Improved CO2 reduction activity towards C2+ alcohols on a tandem gold on copper electrocatalyst // Nature Catalysis. 2018. Vol. 1. No. 10. pp. 764-771.
RIS |
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RIS Copy
TY - JOUR
DO - 10.1038/s41929-018-0139-9
UR - https://doi.org/10.1038/s41929-018-0139-9
TI - Improved CO2 reduction activity towards C2+ alcohols on a tandem gold on copper electrocatalyst
T2 - Nature Catalysis
AU - Morales Guio, Carlos Gilberto
AU - Cave, Etosha R.
AU - Nitopi, Stephanie A
AU - Feaster, Jeremy T
AU - Wang, Lei
AU - Kuhl, Kendra P.
AU - Jackson, Ariel
AU - Johnson, Natalie C
AU - Abram, David N.
AU - Hatsukade, Toru
AU - Hahn, Christopher
AU - Jaramillo, Thomas
PY - 2018
DA - 2018/10/04
PB - Springer Nature
SP - 764-771
IS - 10
VL - 1
SN - 2520-1158
ER -
BibTex |
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BibTex (up to 50 authors) Copy
@article{2018_Morales Guio,
author = {Carlos Gilberto Morales Guio and Etosha R. Cave and Stephanie A Nitopi and Jeremy T Feaster and Lei Wang and Kendra P. Kuhl and Ariel Jackson and Natalie C Johnson and David N. Abram and Toru Hatsukade and Christopher Hahn and Thomas Jaramillo},
title = {Improved CO2 reduction activity towards C2+ alcohols on a tandem gold on copper electrocatalyst},
journal = {Nature Catalysis},
year = {2018},
volume = {1},
publisher = {Springer Nature},
month = {oct},
url = {https://doi.org/10.1038/s41929-018-0139-9},
number = {10},
pages = {764--771},
doi = {10.1038/s41929-018-0139-9}
}
MLA
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MLA Copy
Morales Guio, Carlos Gilberto, et al. “Improved CO2 reduction activity towards C2+ alcohols on a tandem gold on copper electrocatalyst.” Nature Catalysis, vol. 1, no. 10, Oct. 2018, pp. 764-771. https://doi.org/10.1038/s41929-018-0139-9.