Strategies for the mitigation of salt precipitation in zero-gap CO2 electrolyzers producing CO
Abstract: Salt precipitation in the cathode gas diffusion electrodes of zero-gap CO2 electrolyzers producing CO is a major challenge to the stability and durability of this technology. In this review, we examine different strategies proposed in the literature for mitigating salt precipitation in anion-exchange-membrane-based zero-gap cells. We discuss the advantages and limitations of these approaches, with a focus on material developments and systemic approaches. By normalizing all data to the cumulative amount of converted CO2, we provide a quantified comparison and recommendations for future development. Our review shows that material developments, such as the use of hydrophobic or superhydrophobic coatings, can effectively reduce salt precipitation, but may not be suitable for long-term operation due to their limited durability. Systemic approaches, such as adjusting the operating conditions or incorporating salt removal methods, can also be effective in mitigating salt precipitation, but may come with additional cost and complexity. Overall, our results suggest that a combination of these approaches may be the most effective in achieving the long-term stability and durability required for commercialization
- Location
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Deutsche Nationalbibliothek Frankfurt am Main
- Extent
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Online-Ressource
- Language
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Englisch
- Notes
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Journal of materials chemistry. A. - 11, 14 (2023) , 7344-7357, ISSN: 2050-7496
- Event
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Veröffentlichung
- (where)
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Freiburg
- (who)
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Universität
- (when)
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2023
- Creator
- DOI
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10.1039/d2ta09966g
- URN
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urn:nbn:de:bsz:25-freidok-2352142
- Rights
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Open Access; Der Zugriff auf das Objekt ist unbeschränkt möglich.
- Last update
- 14.08.0016, 10:51 AM CET
Data provider
Deutsche Nationalbibliothek. If you have any questions about the object, please contact the data provider.
Associated
- Disch, Joey
- Bohn, Luca
- Metzler, Lukas
- Vierrath, Severin
- Universität
Time of origin
- 2023
Other Objects (12)
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Reference electrode types for Zero‐Gap CO2 electrolyzers: benefits and limitations
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Reference Electrode Types for Zero‐Gap CO 2 Electrolyzers: Benefits and Limitations
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Performance and Stability of Aemion and Aemion+ Membranes in Zero‐Gap CO 2 Electrolyzers with Mild Anolyte Solutions
Exploring the (Dis)‐Similarities of Half‐Cell and Full Cell Zero‐Gap Electrolyzers for the CO 2 Electroreduction
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Investigation of salt precipitation and water management in zero‐gap CO₂ electrolyzers producing CO : = Investigation of salt precipitation and water management in zero‐gap CO2 electrolyzers producing CO
Deciphering and Countering Formic Acid Permeability in Zero‐Gap Electrolyzers
Reference electrode types for Zero‐Gap CO2 electrolyzers: benefits and limitations
Hidden parameters for electrochemical carbon dioxide reduction in zero-gap electrolyzers
Reference Electrode Types for Zero‐Gap CO 2 Electrolyzers: Benefits and Limitations
Exploring the (dis)-similarities of half-cell and full cell zero-gap electrolyzers for the CO2 electroreduction
Performance and Stability of Aemion and Aemion+ Membranes in Zero‐Gap CO 2 Electrolyzers with Mild Anolyte Solutions
Exploring the (Dis)‐Similarities of Half‐Cell and Full Cell Zero‐Gap Electrolyzers for the CO 2 Electroreduction
Electrode engineering for anion-exchange membrane water electrolyzers
Hydrocarbon Ionomeric Binders for Fuel Cells and Electrolyzers
Revisiting Chlor-Alkali Electrolyzers: from Materials to Devices
Microporous Electrode Binders for Anion Exchange Membrane Water Electrolyzers
Investigation of salt precipitation and water management in zero‐gap CO₂ electrolyzers producing CO : = Investigation of salt precipitation and water management in zero‐gap CO2 electrolyzers producing CO
Deciphering and Countering Formic Acid Permeability in Zero‐Gap Electrolyzers
Reference electrode types for Zero‐Gap CO2 electrolyzers: benefits and limitations
Hidden parameters for electrochemical carbon dioxide reduction in zero-gap electrolyzers
Reference Electrode Types for Zero‐Gap CO 2 Electrolyzers: Benefits and Limitations
Exploring the (dis)-similarities of half-cell and full cell zero-gap electrolyzers for the CO2 electroreduction
Performance and Stability of Aemion and Aemion+ Membranes in Zero‐Gap CO 2 Electrolyzers with Mild Anolyte Solutions
Exploring the (Dis)‐Similarities of Half‐Cell and Full Cell Zero‐Gap Electrolyzers for the CO 2 Electroreduction
Electrode engineering for anion-exchange membrane water electrolyzers
Hydrocarbon Ionomeric Binders for Fuel Cells and Electrolyzers
Revisiting Chlor-Alkali Electrolyzers: from Materials to Devices