浅谈微生物燃料电池研究进展
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摘要
微生物燃料电池是微生物技术与电池技术相结合的产物,可利用微生物催化底物收获电能。在调研国内外相关文献的基础上,综述了微生物燃料电池工作原理、微生物燃料电池的发展历史及主要的产电微生物,并展望了微生物燃料电池在环境领域的应用潜力。
Microbial fuel cell(MFC) is hybrid of microbial technology and electrochemistry, which can effectively convert substrate or renewable biomass to electricity. Electricigens play an important role in MFC. In this article, research progresses of microbial fuel cells in recent years were summarized,different electricigens were provided, the application prospect of microbial fuel cells was forecasted.
Microbial fuel cell(MFC) is hybrid of microbial technology and electrochemistry, which can effectively convert substrate or renewable biomass to electricity. Electricigens play an important role in MFC. In this article, research progresses of microbial fuel cells in recent years were summarized,different electricigens were provided, the application prospect of microbial fuel cells was forecasted.
引文
[1]Lovley D R.Microbial fuel cells:novel microbial physiologies and engineering approaches[J].Current Opinion in Biotechnology,2006,17(3):327-332.
[2]Bond D R.Electrode-Reducing Microorganisms That Harvest Energy from Marine Sediments[J].Science,2002,295(5554):483-485.
[3]曹效鑫,梁鹏,黄霞,等.“三合一”微生物燃料电池的产电特性研究[J].环境科学学报,2006,26(8):1252-1257.
[4]赵丽坤,闫蕾蕾,李景晨,等.产电微生物与微生物燃料电池研究进展[J].安徽农业科学,2010,38(26):14227-14229.
[5]杨冰,高海军,张自强.微生物燃料电池研究进展[J].生命科学仪器,2007,5(1):4-6.
[6]王萍,徐志兵,操璟璟.微生物燃料电池(MFC)技术及其发展前景的研究[J].节能技术,2008,26(6):534-536.
[7]Rabaey I,Ossieur W,Verhaege M,et al.Continuous microbial fuel cells convert carbohydrates to electricity[J].Water Science&Technology A Journal of the International Association on Water Pollution Research,2005,52(1-2):515.
[8]黄霞,梁鹏,曹效鑫,等.无介体微生物燃料电池的研究进展[J].中国给水排水,2007,23(4):2-5
[9]洪义国,郭俊,孙国萍,等.产电微生物及微生物燃料电池最新研究进展[J].微生物学报,2007,47(1):173-176
[10]谢作普,郑平,张吉强,等.产电微生物及其生理生化特性[J].科技通报,2013,29(7):32-39
[11]Ringeisen B R,Henderson E,Wu P K,et al.High Power Density from a Miniature Microbial Fuel Cell Using Shewanella oneidensis DSP10[J].Environmental Science&Technology,2006,40(8):2629-34.
[12]Biffinger J C,Byrd J N,Dudley B L,et al.Oxygen exposure promotes fuel diversity for Shewanella oneidensis microbial fuel cells[J].Biosensors and Bioelectronics,2008,23(6):820-826.
[13]邓丽芳,李芳柏,周顺桂,等.克雷伯氏菌燃料电池的电子穿梭机制研究[J].科学通报,2009(19):2983-2987.
[14]Luo J,Yang J,He H,et al.A new electrochemically active bacterium phylogenetically related to Tolumonas osonensis and power performance in MFCs[J].Bioresource Technology,2013,139:141-148.
[15]Xing D,Zuo Y,Cheng S,et al.Electricity Generation by Rhodopseudomonas palustris DX-1[J].Environmental Science and Technology,2008,42(11):4146-4151.
[16]李颖,孙永明,孔晓英,等.微生物燃料电池中产电微生物的研究进展[J].微生物学通报,2009,36(9):1405-1407.
[17]Holmes D E,Bond D R,Lovley D R,et al.Electron transfer by Desulfobulbus propionicus to Fe(III)and graphite electrodes[J].Applied&Environmental Microbiology,2004,70(2):1234-1237.
[18]Bond D R,lovely D R,et al.Evidence for involvement of an electron shuttle in electricity production by Geothrix fermentans.Applied&Environmental Microbiology,2005,71(4):2186-2189.
[19]Gregory KB,Bond DR,Lovley DR,et al.Graphite electrodes as electron donors for anaerobic respiration.Environmental Microbiology,2004,6:596-604.
[20]Anderson RT,Lovley DR.Ecology and biogeochemistry of in situ groundwater bioremediation.Advances in Microbial Ecology,1997,15:289-350.
[21]冯雅丽,联静,杜竹玮,等.无介体微生物燃料电池研究进展[J].有色金属,2005,57(2):57-59.
[22]连静,祝学远,李浩然,等.直接微生物燃料电池的研究现状及应用前景[J].科学技术与工程,2005,5(22):1749-1752.
[2]Bond D R.Electrode-Reducing Microorganisms That Harvest Energy from Marine Sediments[J].Science,2002,295(5554):483-485.
[3]曹效鑫,梁鹏,黄霞,等.“三合一”微生物燃料电池的产电特性研究[J].环境科学学报,2006,26(8):1252-1257.
[4]赵丽坤,闫蕾蕾,李景晨,等.产电微生物与微生物燃料电池研究进展[J].安徽农业科学,2010,38(26):14227-14229.
[5]杨冰,高海军,张自强.微生物燃料电池研究进展[J].生命科学仪器,2007,5(1):4-6.
[6]王萍,徐志兵,操璟璟.微生物燃料电池(MFC)技术及其发展前景的研究[J].节能技术,2008,26(6):534-536.
[7]Rabaey I,Ossieur W,Verhaege M,et al.Continuous microbial fuel cells convert carbohydrates to electricity[J].Water Science&Technology A Journal of the International Association on Water Pollution Research,2005,52(1-2):515.
[8]黄霞,梁鹏,曹效鑫,等.无介体微生物燃料电池的研究进展[J].中国给水排水,2007,23(4):2-5
[9]洪义国,郭俊,孙国萍,等.产电微生物及微生物燃料电池最新研究进展[J].微生物学报,2007,47(1):173-176
[10]谢作普,郑平,张吉强,等.产电微生物及其生理生化特性[J].科技通报,2013,29(7):32-39
[11]Ringeisen B R,Henderson E,Wu P K,et al.High Power Density from a Miniature Microbial Fuel Cell Using Shewanella oneidensis DSP10[J].Environmental Science&Technology,2006,40(8):2629-34.
[12]Biffinger J C,Byrd J N,Dudley B L,et al.Oxygen exposure promotes fuel diversity for Shewanella oneidensis microbial fuel cells[J].Biosensors and Bioelectronics,2008,23(6):820-826.
[13]邓丽芳,李芳柏,周顺桂,等.克雷伯氏菌燃料电池的电子穿梭机制研究[J].科学通报,2009(19):2983-2987.
[14]Luo J,Yang J,He H,et al.A new electrochemically active bacterium phylogenetically related to Tolumonas osonensis and power performance in MFCs[J].Bioresource Technology,2013,139:141-148.
[15]Xing D,Zuo Y,Cheng S,et al.Electricity Generation by Rhodopseudomonas palustris DX-1[J].Environmental Science and Technology,2008,42(11):4146-4151.
[16]李颖,孙永明,孔晓英,等.微生物燃料电池中产电微生物的研究进展[J].微生物学通报,2009,36(9):1405-1407.
[17]Holmes D E,Bond D R,Lovley D R,et al.Electron transfer by Desulfobulbus propionicus to Fe(III)and graphite electrodes[J].Applied&Environmental Microbiology,2004,70(2):1234-1237.
[18]Bond D R,lovely D R,et al.Evidence for involvement of an electron shuttle in electricity production by Geothrix fermentans.Applied&Environmental Microbiology,2005,71(4):2186-2189.
[19]Gregory KB,Bond DR,Lovley DR,et al.Graphite electrodes as electron donors for anaerobic respiration.Environmental Microbiology,2004,6:596-604.
[20]Anderson RT,Lovley DR.Ecology and biogeochemistry of in situ groundwater bioremediation.Advances in Microbial Ecology,1997,15:289-350.
[21]冯雅丽,联静,杜竹玮,等.无介体微生物燃料电池研究进展[J].有色金属,2005,57(2):57-59.
[22]连静,祝学远,李浩然,等.直接微生物燃料电池的研究现状及应用前景[J].科学技术与工程,2005,5(22):1749-1752.