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The electrolysis of dilute CO streams suffers from low concentrations of dissolved substrate and its rapid depletion at the electrolyte-electrocatalyst interface. These limitations require first energy-intensive CO capture and concentration, before electrolyzers can achieve acceptable performances. For direct electrocatalytic CO reduction from low-concentration sources, we introduce a strategy that mimics the carboxysome in cyanobacteria by utilizing microcompartments with nanoconfined enzymes in a porous electrode. A carbonic anhydrase accelerates CO hydration kinetics and minimizes substrate depletion by making all dissolved carbon available for utilization, while a highly efficient formate dehydrogenase reduces CO cleanly to formate; down to even atmospheric concentrations of CO . This bio-inspired concept demonstrates that the carboxysome provides a viable blueprint for the reduction of low-concentration CO streams to chemicals by using all forms of dissolved carbon.
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| http://dx.doi.org/10.1002/anie.202218782 | DOI Listing |
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