Light-assisted fermentative hydrogen production in an intimately-coupled inorganic-bio hybrid with self-assembled nanoparticles
| Autor: | Xue-Meng Wang, Jie Li, Houqi Liu, Tian-Yin Huang, Shuo Cui, Ru-Li He, Wen-Wei Li, Xian-Zhong Fu, Paul K.S. Lam, Li-Jiao Tian |
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| Rok vydání: | 2022 |
| Předmět: |
chemistry.chemical_classification
Sulfide Chemistry General Chemical Engineering Energy conversion efficiency Nanoparticle General Chemistry Industrial and Manufacturing Engineering chemistry.chemical_compound Electron transfer Chemical engineering Fermentative hydrogen production Selenide Photocatalysis Environmental Chemistry Hydrogen production |
| Zdroj: | Chemical Engineering Journal. 428:131254 |
| ISSN: | 1385-8947 |
| Popis: | Photosensitizing bacterial cells with semiconductor nanoparticles is an attractive way to enhance fermentative hydrogen production metabolism via harnessing solar energy as extra driving force, but the enhancement degree is typically limited by inefficient utilization of extracellular photo-electrons. Here, an intimately-coupled inorganic-bio hybrid with enhanced hydrogen-producing activity was constructed by utilizing self-assembled selenide/ sulfide semiconductor nanoparticles (CdSexS1-x) in Escherichia coli as the light harvester. Due to circumvention of transmembrane electron transfer limitation, this hybrid exhibited 2.6-fold higher hydrogen production rate than those with extracellular nanoparticles and achieved light energy conversion efficiency as high as 27.6%. The incorporation of photocatalysis did not impair the bacterial viability, attributed to an efficient scavenging of photo-excited holes by metabolites (e.g., lactate) and minimal reactive oxygen species production. Overall, the light-assisted fermentation system developed in this study offer opportunities for sustainable production of bio-hydrogen and may be extended to bio-photocatalytic production of other valuable chemicals. |
| Databáze: | OpenAIRE |
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