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Conversion of Reactive Carbon Solutions into CO at Low Voltage and High Carbon Efficiency.

Zishuai ZhangEric W LeesShaoxuan RenBenjamin A W MowbrayAoxue HuangCurtis P Berlinguette
Published in: ACS central science (2022)
Electrolyzers are now capable of reducing carbon dioxide (CO 2 ) into products at high reaction rates but are often characterized by low energy efficiencies and low CO 2 utilization efficiencies. We report here an electrolyzer that reduces 3.0 M KHCO 3 (aq) into CO(g) at a high rate (partial current density for CO of 220 mA cm -2 ) and a CO 2 utilization efficiency of 40%, at a voltage of merely 2.3 V. These results were made possible by using: (i) a reactive carbon solution enriched in KHCO 3 as the feedstock instead of gaseous CO 2 ; (ii) a cation exchange membrane instead of an anion exchange membrane, which is common to the field; and (iii) the hydrogen oxidation reaction (HOR) at the anode instead of the oxygen evolution reaction (OER). The voltage reported here is the lowest reported for any CO 2 to CO electrolyzer that operates at high current densities (i.e., a partial current density for CO greater than 200 mA cm -2 ) with a CO 2 utilization efficiency of greater than 20%. This study highlights how the choice of feedstock, membrane, and anode chemistries affects the rate and efficiency at which CO 2 is converted into products.
Keyphrases
  • carbon dioxide
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  • ion batteries
  • electron transfer
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  • decision making