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Boosting the Microbial Electrosynthesis of Formate by MR-1 with an Ionic Liquid Cosolvent. | LitMetric

AI Article Synopsis

  • Microbial electrosynthesis (MES) is an innovative technology that allows microorganisms to convert renewable energy into valuable compounds, with a primary focus on reducing carbon dioxide (CO) for sustainable chemistry.
  • A key challenge in MES is the low efficiency of CO reduction due to its low solubility in electrolytes, which limits microbial access to CO.
  • This study found that using the ionic liquid [EMIM][Ac] significantly improved the efficiency of CO conversion to formate by enhancing current density and product yield, suggesting ionic liquids could be valuable in advancing MES applications.

Article Abstract

Microbial electrosynthesis (MES) is a rapidly growing technology at the forefront of sustainable chemistry, leveraging the ability of microorganisms to catalyze electrochemical reactions to synthesize valuable compounds from renewable energy sources. The reduction of CO is a major target application for MES, but research in this area has been stifled, especially with the use of direct electron transfer (DET)-based microbial systems. The major fundamental hurdle that needs to be overcome is the low efficiency of CO reduction largely attributed to minimal microbial access to CO owing to its low solubility in the electrolyte. With their tunable physical properties, ionic liquids present a potential solution to this challenge and have previously shown promise in facilitating efficient CO electroreduction by increasing the CO solubility. However, the use of ionic liquids in MES remains unexplored. In this study, we investigated the role of 1-ethyl-3-methylimidazolium acetate ([EMIM][Ac]) using MR-1 as a model DET strain. Electrochemical investigations demonstrated the ability of MR-1 biocathodes to directly convert CO to formate with a faradaic efficiency of 34.5 ± 26.1%. The addition of [EMIM][Ac] to the system significantly increased cathodic current density and enhanced the faradaic efficiency to 94.5 ± 4.3% while concurrently amplifying the product yield from 34 ± 23 μM to 366 ± 34 μM. These findings demonstrate that ionic liquids can serve as efficient, biocompatible cosolvents for microbial electrochemical reduction of CO to value-added products, holding promise for more robust applications of MES.

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Source
http://dx.doi.org/10.1021/acsabm.4c01276DOI Listing

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