Eliminating Flooding-related Issues in Electrochemical CO₂-to-CO Converters: Two Lines of Defense.

Vesztergom, Soma; Senocrate, Alessandro; Kong, Ying; Kolivoška, Viliam; Bernasconi, Francesco; Zboray, Robert; Battaglia, Corsin; Broekmann, Peter (2023). Eliminating Flooding-related Issues in Electrochemical CO₂-to-CO Converters: Two Lines of Defense. CHIMIA, 77(3), pp. 104-109. Schweizerische Chemische Gesellschaft 10.2533/chimia.2023.104

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By using silver (Ag) in nanostructured (nanowire, nanosphere, etc.) or thin-layer form as a catalyst for electrochemical CO2 reduction, very high CO-forming selectivity of almost 100% can be achieved. Supported by gas diffusion layers (GDLs), the reactant CO2 in the gas phase can approach and potentially access active Ag sites, which allows current densities in the range of a few hundred mA cm-2 to be reached. Yet, the stability of gas diffusion electrode (GDE) based electrochemical CO2-to-CO converters is far from perfect, and the activity of GDE cathodes, especially when operated at high current densities, often significantly decays during electrolyses after no more than a few hours. The primary reason of stability losses in GDE-based CO2-to-CO electrolysers is flooding: that is, the excess wetting of the GDE that prevents CO2 from reaching Ag catalytic sites. In the past years, the authors of this paper at Empa and at the University of Bern, cooperating with other partners of the National Competence Center for Research (NCCR) on Catalysis, took different approaches to overcome flooding. While opinions differ with regard to where the first line of defense in protecting GDEs from flooding should lie, a comparison of the recent results of the two groups gives unique insight into the nature of processes occurring in GDE cathodes used for CO2 electrolysis.

Item Type:	Journal Article (Original Article)
Division/Institute:	08 Faculty of Science > Department of Chemistry, Biochemistry and Pharmaceutical Sciences (DCBP)
UniBE Contributor:	Vesztergom, Soma, Kong, Ying, Kolivoska, Viliam, Broekmann, Peter
Subjects:	500 Science > 570 Life sciences; biology 500 Science > 540 Chemistry
ISSN:	0009-4293
Publisher:	Schweizerische Chemische Gesellschaft
Language:	English
Submitter:	Pubmed Import
Date Deposited:	06 Dec 2023 15:40
Last Modified:	06 Dec 2023 22:24
Publisher DOI:	10.2533/chimia.2023.104
PubMed ID:	38047811
Uncontrolled Keywords:	Ag nanostructures CO2 reduction Electrocatalysis Flooding Perspiration Wettability
BORIS DOI:	10.48350/189827
URI:	https://boris.unibe.ch/id/eprint/189827

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