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Contribution of direct electron transfer mechanisms to overall electron transfer in microbial fuel cells utilising Shewanella oneidensis as biocatalyst

机译：直接应用电子传递机制对沙瓦氏假单胞菌作为生物催化剂的微生物燃料电池整体电子传递的贡献

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ObjectivesTo investigate the contribution of direct electron transfer mechanisms to electricity production in microbial fuel cells by physically retaining Shewanella oneidensis cells close to or away from the anode electrode.ResultsA maximum power output of 114 ± 6 mWm−2 was obtained when cells were retained close to the anode using a dialysis membrane. This was 3.5 times more than when the cells were separated away from the anode. Without the membrane the maximum power output was 129 ± 6 mWm−2. The direct mechanisms of electron transfer contributed significantly to overall electron transfer from S. oneidensis to electrodes, a result that was corroborated by another experiment where S. oneidensis cells were entrapped in alginate gels.ConclusionS. oneidensis transfers electrons primarily by direct electron transfer as opposed to mediated electron transfer.

机译：目的通过物理方式将Shewanella oneidensis细胞保持在靠近或远离阳极的位置，研究直接电子传递机制对微生物燃料电池发电的贡献。结果，当电池保持在接近阳极的位置时，其最大输出功率为114±6 mWm-2。阳极使用渗析膜。这是电池从阳极分离开时的3.5倍。没有隔膜，最大功率输出为129±6 mWm-2。电子转移的直接机制对整体从拟南芥到电极的电子转移有显着贡献，这一结果得到另一个实验的证实，该实验将拟南芥细胞包埋在藻酸盐凝胶中。与介导的电子转移相反，oneidensis主要通过直接电子转移来转移电子。

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Fapetu, S.A.; Keshavarz, T.; Clements, M.O.; Kyazze, G.;
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年度 2016
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1. Contribution of direct electron transfer mechanisms to overall electron transfer in microbial fuel cells utilising Shewanella oneidensis as biocatalyst [J] . Fapetu Segun, Keshavarz Taj, Clements Mark, Biotechnology Letters . 2016 ,第9期

机译：直接利用电子传递机制对沙瓦氏假单胞菌作为生物催化剂的微生物燃料电池整体电子传递的贡献
2. Shewanella oneidensis MR-1 Msh pilin proteins are involved in extracellular electron transfer in microbial fuel cells [J] . Lisa A. Fitzgerald, Emily R. Petersen, Richard I. Ray, Process Biochemistry . 2012 ,第1期

机译：沙瓦氏假单胞菌MR-1 Msh菌毛蛋白参与微生物燃料电池中的细胞外电子转移
3. Effect of anode polarization on biofilm formation and electron transfer in Shewanella oneidensis/graphite felt microbial fuel cells [J] . Pinto David, Coradin Thibaud, Laberty-Robert Christel Bioelectrochemistry . 2018 ,第期

机译：阳极偏振对芍药氏素/石墨毡微生物燃料电池生物膜形成和电子转移的影响
4. Microbial fuel cells: Electron transfer from the outer cell membrane to the anode [C] . Ana Ferreira da Costa, Christèle Bastian, Manuel Happe European Fuel cell Forum . 2011

机译：微生物燃料电池：从外部电池膜的电子转移到阳极
5. Electron transfer capability and metabolic processes of the genus Shewanella with applications to the optimization of microbial fuel cells. [D] . Bretschger, Orianna. 2008

机译：希瓦氏菌属的电子转移能力和代谢过程及其在微生物燃料电池优化中的应用。
6. A Re‐evaluation of Electron‐Transfer Mechanisms in Microbial Electrochemistry: Shewanella Releases Iron that Mediates Extracellular Electron Transfer [O] . Joseph Oram, Dr. Lars J. C. Jeuken -1

机译：微生物电化学中电子转移机理的重新评估：希瓦氏菌释放铁介导细胞外电子转移
7. Contribution of direct electron transfer mechanisms to overall electron transfer in microbial fuel cells utilising Shewanella oneidensis as biocatalyst [O] . Fapetu, Segun, Keshavarz, Taj, Clements, Mark, 2016

机译：直接应用电子传递机制对沙瓦氏假单胞菌作为生物催化剂的微生物燃料电池整体电子传递的贡献
8. Shewanella Oneidensis MR-1 Msh Pilin Proteins are Involved in Extracellular Electron Transfer in Microbial Fuel Cells [R] . Fitzgerald, L. A., Peterson, E. R., Ray, R. I., 2011

机译：shewanella Oneidensis mR-1 msh pilin蛋白参与微生物燃料电池的细胞外电子转移

Contribution of direct electron transfer mechanisms to overall electron transfer in microbial fuel cells utilising Shewanella oneidensis as biocatalyst

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