Details zur Publikation |
| Kategorie | Textpublikation |
| Referenztyp | Zeitschriften |
| DOI | 10.1002/cssc.202001272 |
Lizenz  |
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| Titel (primär) | Coupled electrochemical and microbial catalysis for the production of polymer bricks |
| Autor | Hegner, R.; Neubert, K.; Kroner, C.; Holtmann, D.; Harnisch, F.
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| Quelle | ChemSusChem |
| Erscheinungsjahr | 2020 |
| Department | UMB |
| Band/Volume | 13 |
| Heft | 19 |
| Seite von | 5295 |
| Seite bis | 5300 |
| Sprache | englisch |
| Supplements | https://chemistry-europe.onlinelibrary.wiley.com/action/downloadSupplement?doi=10.1002%2Fcssc.202001272&file=cssc202001272-s1-Supporting_information_Hegner_etal_SI_final.pdf |
| Keywords | biosynthesis; dicarboxylates; electrochemical CO2 reduction; electrochemistry; formate |
| Abstract | Power‐to‐X technologies have the potential to pave the way towards a future resource‐secure bioeconomy as they enable the exploitation of renewable resources and CO 2 . Herein, we present the coupled electrocatalytic and microbial catalysis of the C5‐polymer precursors mesaconate and 2 S ‐methylsuccinate from CO 2 and electric energy by in situ coupling electrochemical and microbial catalysis at 1 L‐scale. In the first phase, 6.1 ± 2.5 mM formate was produced by electrochemical CO 2 reduction. In the second phase, formate served as the substrate for microbial catalysis by an engineered strain of Methylobacterium extorquens AM‐1 producing 7 ± 2 µM and 10 ± 5 µM of mesaconate and 2 S ‐methylsuccinate, respectively. The proof‐of‐concept shows an overall conversion efficiency of 0.2% being 0.4% of the theoretical maximum. |
| dauerhafte UFZ-Verlinkung | https://www.ufz.de/index.php?en=20939&ufzPublicationIdentifier=23364 |
| Hegner, R., Neubert, K., Kroner, C., Holtmann, D., Harnisch, F. (2020): Coupled electrochemical and microbial catalysis for the production of polymer bricks ChemSusChem 13 (19), 5295 - 5300 10.1002/cssc.202001272 |
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