Cathodes for electrochemical carbon dioxide reduction to multi-carbon products: part I : a focused review of recent highlights
Cathodes for electrochemical carbon dioxide reduction to multi-carbon products: part I : a focused review of recent highlights
This is a focused review of recent highlights in the literature in cathode development for low temperature electrochemical carbon dioxide and carbon monoxide reduction to multi-carbon (C2+) products. The major goals for the field are to increase Faradaic efficiency (FE) for specific C2+ products, lower cell voltage for industrially relevant current densities and increase cell lifetime. A key to achieving these goals is the rational design of cathodes through increased understanding of structure-selectivity and structure-activity relationships for catalysts and the influence of catalyst binders and gas diffusion layers (GDLs) on the catalyst microenvironment and subsequent performance.
97-109
Macpherson, Harry
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Hodges, Toby
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Chuma, Moyahabo Hellen
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Sherwin, Connor
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Podbevšek, Urša
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Rigg, Katie
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Celorrio, Veronica
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Russell, Andrea
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Corbos, Elena C.
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Macpherson, Harry
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Hodges, Toby
a60b0292-f3b7-4e31-9d17-05b8f0bb00ff
Chuma, Moyahabo Hellen
d61d282e-dd96-4ce8-8aa0-b27da05bac5f
Sherwin, Connor
b4e01340-ac4d-46a3-8904-ec306c903761
Podbevšek, Urša
ffcc80dc-5dd8-4c8a-81e1-80da87a6b128
Rigg, Katie
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Celorrio, Veronica
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Russell, Andrea
b6b7c748-efc1-4d5d-8a7a-8e4b69396169
Corbos, Elena C.
fb2d9cfb-e361-471f-8d05-f07ba67aa669
Macpherson, Harry, Hodges, Toby, Chuma, Moyahabo Hellen, Sherwin, Connor, Podbevšek, Urša, Rigg, Katie, Celorrio, Veronica, Russell, Andrea and Corbos, Elena C.
(2022)
Cathodes for electrochemical carbon dioxide reduction to multi-carbon products: part I : a focused review of recent highlights.
Johnson Matthey Technology Review, 67 (1), .
(doi:10.1595/205651323x16672291226135).
Abstract
This is a focused review of recent highlights in the literature in cathode development for low temperature electrochemical carbon dioxide and carbon monoxide reduction to multi-carbon (C2+) products. The major goals for the field are to increase Faradaic efficiency (FE) for specific C2+ products, lower cell voltage for industrially relevant current densities and increase cell lifetime. A key to achieving these goals is the rational design of cathodes through increased understanding of structure-selectivity and structure-activity relationships for catalysts and the influence of catalyst binders and gas diffusion layers (GDLs) on the catalyst microenvironment and subsequent performance.
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Accepted/In Press date: 27 October 2022
e-pub ahead of print date: 31 October 2022
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Local EPrints ID: 491885
URI: http://eprints.soton.ac.uk/id/eprint/491885
PURE UUID: ca7517a1-f295-454a-83ed-7f3c44d02a5e
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Date deposited: 04 Jul 2024 18:12
Last modified: 12 Jul 2024 02:07
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Author:
Harry Macpherson
Author:
Toby Hodges
Author:
Moyahabo Hellen Chuma
Author:
Connor Sherwin
Author:
Urša Podbevšek
Author:
Katie Rigg
Author:
Veronica Celorrio
Author:
Elena C. Corbos
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