Performance of microbial fuel cells with and without ... - ResearchGate
Performance of microbial fuel cells with and without ... - ResearchGate
Performance of microbial fuel cells with and without ... - ResearchGate
You also want an ePaper? Increase the reach of your titles
YUMPU automatically turns print PDFs into web optimized ePapers that Google loves.
264 Y. Huang et al. / Bioelectrochemistry 79 (2010) 261–264References[1] B. Logan, B. Hamelers, R. Rozendal, U. Schroder, J. Keller, S. Freguia, P. Aelterman,W. Verstraete, K. Rabaey, Microbial <strong>fuel</strong> <strong>cells</strong>: methodology <strong>and</strong> technology,Environ. Sci. Technol. 40 (17) (2006) 5181–5192.[2] K. Rabaey, J. Rodríguez, L.L. Blackall, J. Keller, P. Gross, D. Batstone, W. Verstraete,K.H. Nealson, Microbial ecology meets electrochemistry: electricity-driven <strong>and</strong>driving communities, ISME J. 1 (2007) 9–18.[3] Z. He, N. Wagner, S.D. Minteer, L.T. Angenent, An upflow <strong>microbial</strong> <strong>fuel</strong> cell <strong>with</strong> aninterior cathode: assessment <strong>of</strong> the internal resistance by impedance spectroscopy,Environ. Sci. Technol. 40 (2006) 5212–5217.[4] A.K. Shukla, P. Suresh, S. Berchmans, A. Rajendran, Biological <strong>fuel</strong> <strong>cells</strong> <strong>and</strong> theirapplications, Curr. Sci. 87 (4) (2004) 455–468.[5] R.M. Allen, H.P. Bennetto, Microbial <strong>fuel</strong>-<strong>cells</strong>: electricity production fromcarbohydrates, Appl. Biochem. Biotechnol. 39/40 (1993) 27–40.[6] G.C. Gil, I.S. Chang, B.H. Kim, M. Kim, J.K. Jang, H.S. Park, H.J. Kim, Operationalparameters affecting the performance <strong>of</strong> a mediator-less <strong>microbial</strong> <strong>fuel</strong> cell,Biosens. Bioelectron. 18 (2003) 327–334.[7] J.R. Kim, G.C. Premier, F.R. Hawkes, R.M. Dinsdals, A.J. Guwy, Development <strong>of</strong> atubular <strong>microbial</strong> <strong>fuel</strong> cell (MFC) employing a membrane electrode assemblycathode, J. Power Sources 187 (2009) 393–399.[8] S. Cheng, H. Liu, B.E. Logan, Increased performance <strong>of</strong> single-chamber <strong>microbial</strong> <strong>fuel</strong><strong>cells</strong> using an improved cathode structure, Electrochem. Commun. 8 (2006) 489–494.[9] A.K. Manohar, O. Bretschger, K.H. Nealson, F. Mansfeld, The use <strong>of</strong> electrochemicalimpedance spectroscopy (EIS) in the evaluation <strong>of</strong> the electrochemical properties<strong>of</strong> a <strong>microbial</strong> <strong>fuel</strong> cell, Bioelectrochemistry 72 (2008) 149–154.[10] F. Mansfeld, Use <strong>of</strong> electrochemical impedance spectroscopy for the study <strong>of</strong>corrosion protection by polymer coatings, J Appl. Electrochem. 25 (1995) 187–202.[11] F. Mansfeld, L.T. Han, C.C. Lee, G. Zhang, Evaluation <strong>of</strong> corrosion protection bypolymer coatings <strong>with</strong> electrochemical impedance spectroscopy <strong>and</strong> noiseanalysis, Electrochim. Acta 43 (1998) 2933–2945.