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环境工程学报 2012

磷酸活化石墨的氧还原特性以及用于微生物燃料电池阴极

李冬梅,史海凤,殷瑶,柳玥,窦春玲,蔡兰坤,张乐华

Keywords: 微生物燃料电池（MFCs）,石墨,活化,氧还原

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Abstract:

研究了磷酸活化对石墨电极上氧还原反应的影响，并考察了磷酸活化石墨材料应用于微生物燃料电池阴极的可行性。首先以循环伏安和电化学阻抗谱等电化学方法考察了经磷酸活化的石墨材料的氧还原能力，发现经质量分数为85%磷酸活化12h后其氧还原能力最强；然后将活化石墨材料应用于微生物燃料电池的阴极，进行极化曲线和功率密度曲线的测定。结果表明，磷酸活化阴极微生物燃料电池的最大功率密度可达7.92W/m3，为未活化石墨阴极微生物燃料电池的3.4倍；同时进行了电化学比表面积的测定及FTIR的分析测定，结果表明，磷酸活化石墨颗粒的比表面积（7.716m2/g）较未活化颗粒（10.940m2/g）略有减小，但其表面官能团的数量和种类发生了很大变化。表面官能团的变化可能是导致石墨材料氧还原能力增强及MFCs产电性能提高的重要原因。

References

[1]	Moon H;Chang S. I;Jang K. J,Residence time distribution in microbial fuel cell and its influence on COD removal with electricity generation,Biochemical Engineer- ing,2005(1).
[2]	ALLISON RHOADS ；HALUK BEYENAL ；ZBIGNIEW LEWANDOWSKI,Microbial Fuel Cell using Anaerobic Respiration as an Anodic Reaction and Biomineralized Manganese as a Cathodic Reactant,Environmental Science & Technology？,2005, 39(12).
[3]	毛艳萍;蔡兰坤;张乐华.生物阴极微生物燃料电池[J].化学进展,2009(7-8)
[4]	Mao Y. P;Zhang L. H;Li D. M,Power generation from a biocathode microbial fuel cell biocatalyzed by fer- ro/manganese-oxidizing bacteria,Electrochimica Acta,2011(27).
[5]	王玉新;苏伟;周亚平.不同磷酸活化工艺过程对活性炭孔结构的影响[J].炭素技术,2009(1)doi:10.3969/j.issn.1001-3741.2009.01.005
[6]	徐涛;刘晓勤.磷酸活化法制备花生壳活性炭工艺[J].化学工程,2009(11)doi:10.3969/j.issn.1005-9954.2009.11.019
[7]	齐欣;李春虎;刘涛.磷酸活化褐煤半焦用于柴油吸附脱硫的研究[J].化学工程,2008(11)doi:10.3969/j.issn.1005-9954.2008.11.001
[8]	毛艳萍微生物燃料电池中硫化物氧化和生物阴极的研究 [D].2010
[9]	Logan B.E,Microbial Fuel Cells,Wiley Press,2007.
[10]	Logan B. E;Hamelers B;Rozendal R,Microbial fuel cells:Methodology and technology,Environmental Science and Technology,2006(17).
[11]	任楠;夏建超;董安钢.煤基活性炭制备工艺及表面性质的研究进展[J].洁净煤技术,2001(2)doi:10.3969/j.issn.1006-6772.2001.02.013
[12]	梁鹏;范明志;曹效鑫.微生物燃料电池表观内阻的构成和测量[J].环境科学,2007(8)
[13]	连静,冯雅丽,李浩然.微生物燃料电池的研究进展[J].过程工程学报,2006(2)
[14]	Oh S;Min B;Logan B. E,Cathode performance as a fac- tor in electricity generation in microbial fuel cells,Environ- mental Science and Technology,2004(18).
[15]	Deng Q;Li X. Y;Zuoa J,Power generation using an activated carbon fiber felt cathode in an upfiow microbial fuel cell,Journal of Power Sources,2010(4).
[16]	Cheng S. A;Liu H;Logan B. E,Power densities using dif- ferent cathode catalysts (Pt and CoTMPP) and polymer binders (Nafion and PTFE) in single chamber MFCs,Envi- ronmental Science and Technology,2006(1).
[17]	Zhao, F ；Harnisch, F ；Schroder, U ；Scholz, F ；Bogdanoff, P ；Herrmann, I,Application of pyrolysed iron(II) phthalocyanine and CoTMPP based oxygen reduction catalysts as cathode materials in microbial fuel cells,Electrochemistry communications？,2005, 7(12).
[18]	Lu A. H;Li Y;Jin S,Microbial fuel cell equipped with a photocatalytic rutile-coated cathode,Energy and Fuels,2010(2).
[19]	Hasvold O;Henriksen H;Melvaer E Sea-water battery for subsea control systems [J] 1997(1-2)
[20]	de Schamphelaire, L ；van den Bossche, L ；Dang, HS ；Hofte, M ；Boon, N ；Rabaey, K ；Verstraete, W,Microbial fuel cells generating electricity from rhizodeposits of rice plants,Environmental Science & Technology？,2008, 42(8).

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