Abstract
The electrolysis of carbon capture solutions bypasses energy-intensive CO2 recovery steps that are often required to convert CO2 into value-added products. We report herein an electrochemical flow reactor that converts carbon capture solutions containing carbonic anhydrase enzymes into carbon-based products. Carbonic anhydrase enzymes benefit CO2 capture by increasing the rate of reaction between CO2 and weakly alkaline solutions by 20-fold. In this study, we reduced CO2-enriched bicarbonate solutions containing carbonic anhydrase ("enzymatic CO2 capture solutions") into CO at current densities of 100mAcm-2. This result demonstrated how to electrolyse enzymatic CO2 capture solutions, but the selectivity for CO production was two-thirds less than bicarbonate solutions without carbonic anhydrase. This reduction in performance occurred because carbonic anhydrase deactivated the catalyst surface. A carbon microporous layer was found to suppress this deactivation.
Published Version
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