Research Advances in Microbial Electron Transfer of Bio-electrochemical System
作者: Qingliang Zhao , Yunshu Zhang , Wei Li
DOI:
关键词:
摘要: Bio-electrochemical system (BES) was an emerging biomass-energy recovery technology based on electricigens electron transfer (EET), which applied to recover electric energy (e.g. microbial fuel cell, MFC) and resources (such as hydrogen methane) enhance the removal of heavy metals refractory organic pollutants POPs). The process electrode identified key in such a BES system. In this paper, recent research achievements about EET both at home abroad were analyzed summarized, electricigen diversity, pathways study methods systematically presented. Finally, direction pointed out.
ivypub.org参考文章(35)
Anna Klimes, Ashley E. Franks, Richard H. Glaven, Hoa Tran, Christian L. Barrett, Yu Qiu, Karsten Zengler, Derek R. Lovley, Production of pilus-like filaments in Geobacter sulfurreducens in the absence of the type IV pilin protein PilA. Fems Microbiology Letters. ,vol. 310, pp. 62- 68 ,(2010) , 10.1111/J.1574-6968.2010.02046.X
Rachida A. Bouhenni, Gary J. Vora, Justin C. Biffinger, Sheetal Shirodkar, Ken Brockman, Ricky Ray, Peter Wu, Brandy J. Johnson, Eulandria M. Biddle, Matthew J. Marshall, Lisa A. Fitzgerald, Brenda J. Little, Jim K. Fredrickson, Alexander S. Beliaev, Bradley R. Ringeisen, Daad A. Saffarini, The Role of Shewanella oneidensis MR-1 Outer Surface Structures in Extracellular Electron Transfer Electroanalysis. ,vol. 22, pp. 856- 864 ,(2010) , 10.1002/ELAN.200880006
Korneel Rabaey, Nico Boon, Steven D. Siciliano, Marc Verhaege, Willy Verstraete, Biofuel Cells Select for Microbial Consortia That Self-Mediate Electron Transfer Applied and Environmental Microbiology. ,vol. 70, pp. 5373- 5382 ,(2004) , 10.1128/AEM.70.9.5373-5382.2004
Jothinathan Deepika, Sundaram Meignanalakshmi, Wilson Richard Thilagaraj, A STUDY ON BIOELECTRICITY PRODUCTION BY THE SYNERGISTIC ACTION OF BACILLUS TEQUILENSIS DMR-5 AND PSEUDOMONAS AERUGINOSA DMR-3 ISOLATED FROM RUMEN FLUID American Journal of Environmental Sciences. ,vol. 9, pp. 424- 430 ,(2013) , 10.3844/AJESSP.2013.424.430
Swades K Chaudhuri, Derek R Lovley, Electricity generation by direct oxidation of glucose in mediatorless microbial fuel cells Nature Biotechnology. ,vol. 21, pp. 1229- 1232 ,(2003) , 10.1038/NBT867
Jingxin Zhang, Yaobin Zhang, Xie Quan, Shuo Chen, Shahzad Afzal, Enhanced anaerobic digestion of organic contaminants containing diverse microbial population by combined microbial electrolysis cell (MEC) and anaerobic reactor under Fe(III) reducing conditions. Bioresource Technology. ,vol. 136, pp. 273- 280 ,(2013) , 10.1016/J.BIORTECH.2013.02.103
Lixia Zhang, Shungui Zhou, Li Zhuang, Weishan Li, Jintao Zhang, Na Lu, Lifang Deng, Microbial fuel cell based on Klebsiella pneumoniae biofilm Electrochemistry Communications. ,vol. 10, pp. 1641- 1643 ,(2008) , 10.1016/J.ELECOM.2008.08.030
M. Lenin Babu, G. Venkata Subhash, P.N. Sarma, S. Venkata Mohan, Bio-electrolytic conversion of acidogenic effluents to biohydrogen: an integration strategy for higher substrate conversion and product recovery. Bioresource Technology. ,vol. 133, pp. 322- 331 ,(2013) , 10.1016/J.BIORTECH.2013.01.029
Electrical effects accompanying the decomposition of organic compounds Proceedings of The Royal Society B: Biological Sciences. ,vol. 84, pp. 260- 276 ,(1911) , 10.1098/RSPB.1911.0073
Bruce E. Logan, Douglas Call, Shaoan Cheng, Hubertus V. M. Hamelers, Tom H. J. A. Sleutels, Adriaan W. Jeremiasse, René A. Rozendal, Microbial Electrolysis Cells for High Yield Hydrogen Gas Production from Organic Matter Environmental Science & Technology. ,vol. 42, pp. 8630- 8640 ,(2008) , 10.1021/ES801553Z