A. Perazio
Low‐Voltage Acidic CO 2 Reduction Enabled by a Diaphragm‐Based Electrolyzer
Perazio, A.; Schreiber, Moritz W.; Creissen, C. E.; Fontecave, M.
Abstract
Large‐scale implementation of electrochemical CO2 conversion to value‐added products is currently hampered by high electrolyzer cell voltages, resulting in low energy efficiency and high operating costs. Cell voltages are typically well above 3 V and need to be significantly lowered whilst maintaining current densities greater than 200 mA cm−2 to enable energy‐efficient CO2 electroreduction. This can be addressed through modification of the resistive components of the device to reduce energy consumption and lower operating costs. Electrodes, electrolyte solutions, and the separator between compartments, provide the largest contributions to the overall cell voltage, therefore decreasing their resistance can lower the electricity input required to drive effective CO2 conversion. Here, by careful analysis and tuning of the various sources of voltage drops within the cell, an optimized diaphragm‐based CO2R device is presented, which is able to operate at an industrially relevant current density of 200 mA cm−2 with an |Ecell| as low as 2.89 V, amongst the lowest reported values to date.
Citation
Perazio, A., Schreiber, M. W., Creissen, C. E., & Fontecave, M. (in press). Low‐Voltage Acidic CO 2 Reduction Enabled by a Diaphragm‐Based Electrolyzer. ChemElectroChem, 11(9), Article e202400045. https://doi.org/10.1002/celc.202400045
| Journal Article Type | Article |
|---|---|
| Acceptance Date | Mar 13, 2024 |
| Online Publication Date | Mar 13, 2024 |
| Deposit Date | Mar 18, 2024 |
| Publicly Available Date | Mar 18, 2024 |
| Journal | ChemElectroChem |
| Print ISSN | 2196-0216 |
| Publisher | Wiley |
| Peer Reviewed | Peer Reviewed |
| Volume | 11 |
| Issue | 9 |
| Article Number | e202400045 |
| DOI | https://doi.org/10.1002/celc.202400045 |
| Public URL | https://keele-repository.worktribe.com/output/775788 |
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Low‐Voltage Acidic CO 2 Reduction Enabled by a Diaphragm‐Based Electrolyzer
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Copyright Statement
This is an open access article under the terms of the Creative Commons Attribution License, which permits use, distribution and reproduction in any medium, provided the original work is properly cited.
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