微生物燃料电池中高效降解抗生素的生物阳极成膜机制研究任务书

 2021-11-04 08:11

1. 毕业设计(论文)的内容和要求

(一) 整体要求1、文献查阅掌握文献查阅的一般方法,学会利用计算机在中国期刊网、维普数据网、超星数字图书馆、美国化学学会(ACS)、CA 、SCI等检索资源上查阅与微生物燃料电池相关的文献。

2、文献阅读及综述仔细阅读与所做课题相关的中英文文献,了解相关背景以及目前国内外的研究动态,撰写文献综述。

3、明确实验任务,拟定实验方案 根据所查文献的内容,结合大学所学课程相关知识,确定实验内容及方案,拟定科学可行的研究计划。

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2. 参考文献

[1] Rabaey K:Verstracte W.Microbial fuel cells:novel biotechnology for Energy generation.Trends.Biotechnol.,2005.23:291-298.[2]Park D H. GREGORY Z J, Improved fuel cell and electrode designs for Producing electricity from mcrobial degradation.Biotechnol.Bioeng.,2003, 81(3):348-355P[3] Cheng S A, Liu H, Logan B E.Increased power generation in a continuous flow MFC with advective flow through the porous anode and reduced electrode spacing [J]. Environ. Sci. Technol., 2006,40:364-369.[4] Biffinger J C, Pietron J, Ray R. A biofilm enhanced miniature microbial fuel cell using Shewanella oneidensis DSP10 and oxygen reduction cathodes [J]. Biosens. Bioelectron., 2007, 22:1672-1679.[5] Zhao F, Harnisch F, Schroder U. Application of pyrolysed iron (II) phthalocyanine and CoTMPP based oxygen reduction catalysts as cathode materials in microbial fuel cells [3]. Electrochem. Commun.,2005, 7:1407-1410.[6] Yu E H, Cheng S A, Scott K. Microbial fuel cell performance with non-Pt cathode catalysts [J]. J. Power Sources, 2007, 17:127-131.[7] Bullen R A, Arnot T C, Lakeman J B, et al. Biofuel cells and their development [J]. Biosens.Bioelectron., 2006, 21:2015-2045.[8] Du Z W,Li H R, Gu T Y. A state of the art review on microbial fuel cells: a promising technology for wastewater treatment and bioenergy [J]. Biotechnol. Adv., 2007, 25:464-482.[9] Logan B E, Hamelers B, Rozendal R, et al. Microbial fuel cells: methodology and technology [J].Eviron. Sci. Technol., 2006, 40:5181-5192.[10] Bergel A, Feron D, Mollica A. Catalysis of oxygen reduction in PEM fuel cell by seawater biofilm [J].Electrochem. Commun., 2005, 7:900-904.[11] Rabaey K, Read S T, Clauwaert P. Minimizing losses in bio-electrochemical systems: the road to applications [J]. Biotechnol. Bioeng., 2008, 1:4-9.[12] Cao X X, Huang X. A completely anoxic microbial fuel cell using a photo-biocathode for cathodic carbon dioxide reduction [J]. Energy. Environ. 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Challenges and constraints of using oxygen cathodes inmicrobial fuel cells [J]. Environ. Sci. Technol., 2006, 40: 5193-5199.[19] Oh S E, Min B, Logan B E. Extracting hydrogen electricity from renewable resources [J]. Environ. Sci Technol., 2004, 38:160-167.[20] You S J, Zhao Q L, Zhang J N, Zhao J Q. A microbial fuel cell using permanganate as the cathodic electron acceptor [J]. J. Power Sources, 2006, 162: 1409-1415.[21] Terheijne A, Hamelers H V, Wilde V D, et al. A bipolar membrane combined with ferric iron reduction as an efficient cathode system in microbial fuel cells [J]. Environ. Sci. Technol., 2006, 40:121-125.[22] Huang L P, Cheng S A, Chen GH. Bioelectrochemical systems for efficient recalcitrant wastes treatment [J]. J. Chem. Technol. Biotechnol., 2011,86:481-491.[23] Clauwaert P, Rabaey K, Aelterman P, et al. Biological denitrification in microbial fuel cells [J].Environ. Sci. Technol., 2007, 41:341-335.[24] Cheng S A, Xing D F, Call D F, et al. Direct biological conversion of electrical current into methane by electromethanogenesis [J].Environ. Sci. Technol., 2009, 43:3953-3958.[25] Aulenta F, Catervi A, Majone M, et al. Electron transfer from a solid-state electrode assisted by methyl viologen sustains efficient microbial reductive dechlorination of TCE [J]. Environ. Sci. Technol., 2007 41:2554-2559.[26] Li Z, Zhang X, Lei L. Electricity production during the treatment of real electroplating wastewater containing Crb using microbial fuel cell [J]. Process. Biochem., 2008, 43:1352-1358.[27] Wang G, Huang L P, Zhang Y F. Cathodic reduction of hexavalent chromium[Cr(VI)] coupled with electricity generation in microbial fuel cells [J]. Bio. Technol. Lett., 2008, 30:1959-1966.[28] Tandukar M, Huber S J, Onodera T, et al. Biological chromium(VI) reduction in the cathode of a microbial fuel cell [J]. Environ. Sci. Technol., 2009, 43:8159-8165.[29] Huang L, Chen J, Quan X et al. Enhancement of hexavalent chromium reduction and electricity production from a biocathode microbial fuel cell [J]. Bioprocess. Biosyst. Eng., 2010, 33:937-945.[30] Clauwaert P, Van H D, Boon N, et al. Open air biocathode enables effective electricity generation with microbial fuel cells [J]. Environ. Sci. Technol. 41 (2007) 7564-7569.[31] Rabaey K, Clauwaert P, Aelterman P,et al. Tubular microbial fuel cells for efficient electricity generation [J]. Environ. Sci. Technol., 2005, 39:8077-8082.[32] Feng Y J, Wang X, Logan B E, et al. Brewery wastewater treatment using aircathode microbial fuel cells [J]. Appl. Microbiol. Biotechnol., 2008, 78:873-880.[33] Virdis B, Rabaey K, Yuan Z, et al. Microbial fuel cells for simultaneous carbon and nitrogen removal [J]. Water Res., 2008, 42:3013-3024.[34] You S J, Ren N Q, Zhao Q L, et al. Power generation and electrochemical analysis of biocathode microbial fuel cell using graphite fiber brush as cathode material [J]. Fuel Cells, 2009, 5:588-596.[35] Fan Y, Hu H, Liu H. Enhanced Coulombic efficiency and power density of air-cathode microbial fuel cells with an improved cell configuration [J]. J. Power Sources, 2007, 171:348-354.[36] Liu H, Cheng S, Logan B E. Power generation in fed-batch microbial fuel cells as a function of ionic strength, temperature, and reactor configuration [J]. Environ. Sci. Technol., 2005, 39:5488-5493.[37] Jadhava G S, Ghangrekar M M. Performance of microbial fuel cell subjected to variation in pH,temperature, external load and substrate concentration [J]. Bioresour. Technol., 2009, 100:717-723.[38] Ahn Y, Logan B E. Effectiveness of domestic wastewater treatment using microbial fuel cells at ambient and mesophilic temperatures [J]. Bioresour. Technol., 2010, 101:469-475.

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