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미생물연료전지의 전기화학 원리 및 적용
Electrochemical Principles as Applied to Microbial Fuel Cells

김성현    (건국대학교 생명공학과  );
  • 초록

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  • 참고문헌 (26)

    1. Logan, B., Microbial Fuel Cells, John Wiley & Sons, Hoboken, Chaps. 1 and 2(2008) 
    2. Rabaey, K., and Verstraete, W., “Microbial fuel cells: novel biotechnology for energy generation,” Trends Biotechnol., 23(6), 291-298(2005) 
    3. Kim, H. J., Hyun, M. S., Chang, I. S., and Kim, B. H., “A microbial fuel cell type lactate biosensor using metal-reducing bacterium, Shewanella putrefaciens,” J. Microbiol. Biotechnol., 9(3), 365-367(1999) 
    4. Chaudhuri, S. K., and Lovley, D. R., “Electricity generation by direct oxidation of glucose in mediatorless microbial fuel cells,” Nat. Biotechnol., 21, 1229-1232 (2003) 
    5. Yuan, Y., and Kim, S., “Improved performance of a microbial fuel cell with polypyrrole/carbon black composite coated carbon paper anodes.” Bull. Korean. Chem. Soc., 29(7), 1344-1348 (2008)     
    6. Logan, B., Hamelers, B., Rozendal, R., Schr der, U., Keller, J., Freguia, S., Aelterman, P., Verstraete, W., and Rabaey, K., “Microbial fuel cells: methodology and technology,”Environ. Sci. Technol., 40(17), 5181-5192(2006) 
    7. Madigan, M. T., and Martinko, J. M., Brock Biology of Microorganisms, Pearson Education Inc., Upper Saddle River(2006) 
    8. Kissinger, P. T., Preddy, C. R., Shoup, R. E., and Heineman, W. R., “Fundamental Concepts of Analytical Electrochemistry,” Laboratory Techniques in Electroanalytical Chemistry, Kissinger P. T. and Heineman, W. R.(Eds.), Marcel Dekker, New York, pp. 9-50(1984) 
    9. Qiao, Y., Li, C. M., Bao, S-J., Lu, Z., and Hong, Y., “Direct electrochemistry and electrocatalytic mechanism of evolved Escherichia coli cells in microbial fuel cells,” Chem. Commun., 1290-1292(2008) 
    10. Bard, A. J., and Faulkner, L. R., Electrochemical Methods: Fundamentals and Applications, 2nd ed., John Wiley & Sons, New York(2001) 
    11. Leonardo, M. R., Daily, Y., and Clark, D. P., “Role of NAD in regulating the adhE gene of Escherichia coli,” J. Bacteriol., 178, 6013-6018(1996) 
    12. Parsons, R., “The electrical double layer: recent experimental and theoretical developments,”Chem. Rev., 90(5), 813-826 (1990) 
    13. Delahay, P., Double Layer and Electrode Kinetics, Wiley-Interscience, New York, Chap. 2(1965) 
    14. Parsons, R.,“ The metal-liquid electrolyte interface,”Solid State Ionics, 94, 91-98 (1997) 
    15. Sawyer, D. T., Sobkowiak, A., and Roberts, J. L. Jr., Electrochemistry for Chemists, 2nd ed., Wiley-Interscience, New York(1995) 
    16. Heidelberg, J. F., Paulsen, I. T., Nelson, K. E., Gaidos, E. J., Nelson, W. C., Read, T. D., Elisen, J. A., Seshadri, R., Ward, N., Methe, B., Clayton, R. A., Meyer, T., Tsapin, A., Scott, J., Beanan, M., Brinkac, L., Daugherty, S., DeBoy, R. T., Dodson, R. J., Durkin, A. S., Haft, D. H., Kolonay, J. F., Madupu, R., Peterson, J. D., Ymayam, L. A., White, O., Wolf, A. M., Vamathevan, J., Weidman, J., Impraim, M., Lee, K., Berry, K., Lee., C., Mueller, J., Hkhouri, H., Gill, J., Utterback, T. R., McDonald, L. A., Feldblyum, T. V., Smith, H. O., Venter, J. C., Nealson, K. H., and Fraser, C. M., “Genome sequence of the dissimilatory metal ion-reducing bacterium Shewanella oneidensis,” Nat. Biotechnol., 20, 1118-1123(2002) 
    17. Bond, D. R., and Lovley, D. R., "Electricity production by Geobacter sulfurreducens attached to electrodes,” Appl. Environ. Microbiol., 69, 1548-1555(2003) 
    18. Orazem, M. E., and Tribollet, B., Electrochemical Impedance Spectroscopy, John Wiley & Sons, New York(2008) 
    19. 백운기, 박수문, 전기화학 2판, 청문각, 서울, pp. 1-338(2003) 
    20. Pham, T. H., Aelterman, P., and Verstraete, W., “Bioanode performance in bioelectrochemical systems: recent improvements and prospects,” Trends Biotechnol., 27(3), 168-178(2009) 
    21. Fricke, K., Harnisch, F., and Schroder, U., “On the use of cyclic voltammetry for the study of anodic electron transfer in microbial fuel cells,” Energy Environ. Sci., 1, 144-147(2008) 
    22. Min, B., Cheng, S., and Logan, B. E., “Electricity generation using membrane and salt bridge microbial fuel cells,” Water Res., 39, 1675-1686(2005) 
    23. Du, Z., Li, H., and Gu, T., “A state of the art review on microbial fuel cells: a promising technology for wastewater treatment and bioenergy,” Biotechnol. Adv., 25, 464-482(2007) 
    24. Larminie, J., and Dicks, A., Fuel Cell Systems Explained, John Wiley & Sons, New York, pp. 17-60(2000) 
    25. Logan, B., “Exoelectrogenic bacteria that power microbial fuel cells,” Nat. Rev. Microbiol., doi:10.1038(2009) 
    26. Delnick, F. M., Jaeger, C. D., and Levy, S. C., “AC impedance study of porous carbon collectors for Li/$SO_2$ primary cells,” Chem. Eng. Commun., 35, 23-28 (1985) 

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