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John M. Regan |
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Research |
Publications: Jung, S., J.M. Regan (2011). External Resistance
Influences Electrogenesis, Methanogenesis, and Anode Prokaryotic Communities
in MFCs. Applied and Environmental Microbiology, 77(2).
Huang, L., J.M. Regan, J. Chen (2011).
Electron Transfer Mechanisms, New Applications, and Performance of
Biocathode Microbial Fuel Cells. Bioresource
Technology, 102(1):316-323. Tang, H.L., J.M. Regan, S.E. Clark, Y.F. Xie (2011). Prediction of
clean-bed head loss in crumb rubber filters.
Journal of Environmental Engineering,
137(1), 55-62. Ren,
Z., R.P. Ramasamy, S. Red Cloud-Owen, H. Yan, M.M. Mench, J.M. Regan (2011). Time-course correlation of biofilm
properties and electrochemical performance in single-chamber microbial fuel
cells. Bioresource Technology, Kiely; P., G. Rader; J.M Regan; B.E Logan
(2011). Long-term cathode performance and the microbial communities that
develop in microbial fuel cells fed different fermentation endproducts. Bioresource
Technology, 102(1):361-366. Kiely, P.D., R. Cusick, D.F. Call, P.A. Selembo, J.M. Regan, and B.E. Logan (2011). Anode microbial communities produced by changing from microbial fuel cell to microbial electrolysis cell operation using two different wastewaters. Bioresource Technology, 102(1):388-394. Kiely, P.D., D.F. Call, M.D. Yates, J.M. Regan, B.E. Xing, D., S. Cheng, B.E. Logan, and J.M. Regan (2010). Isolation of the exoelectrogenic denitrifying bacterium Comamonas denitrificans based on dilution-to-extinction of the microbial community. Applied Microbiology and Biotechnology, 85(5):1575-1587. Oh,
S.E., Y. Zuo, H. Zhang, M.J. Guiltinan, B.E. Logan, and J.M. Regan (2009). Hydrogen
production by Clostridium acetobutylicum ATCC 824 and
megaplasmid-deficient mutant M5 evaluated using a large headspace volume
technique. International Journal of Hydrogen Energy, 34: 9347-9353. Xing, D., S. Cheng, J.M. Regan, and B.E. Logan (2009). Change in Microbial Communities in Acetate- and Glucose-Fed Microbial Fuel Cells in the Presence of Light. Biosensors and Bioelectronics, 25(1):105-111. Steinberg, L.M. and J.M. Regan (2009). mcrA-Targeted Real-Time Quantitative PCR Method to Examine Methanogen Communities. Applied and Environmental Microbiology, 75(13):4435-4442. Rezaei, F, D. Xing, R. Wagner, J.M Regan, T.L. Richard, and B.E. Logan (2009). Simultaneous Cellulose Degradation and Electricity Production by Enterobacter cloacae in an MFC. Applied and Environmental Microbiology, 75(11):3673-3678. Wagner, R.C., J.M. Regan, S.-E. Oh, Y. Zuo, and B.E. Logan. (2008). Hydrogen and Methane Production from Swine Wastewater Using Microbial Electrolysis Cells. Water Research, 43:1480-1488. Steinberg,
L.M. and J.M. Regan (2008). Phylogenetic Comparison of the
Methanogenic Communities from an Acidic Oligotrophic Fen and an Anaerobic
Digester Treating Municipal Wastewater Sludge. Applied and Environmental Microbiology, 74(21):6663-6671. Ren, Z.,
L.M. Steinberg, and J.M. Regan (2008). Electricity Production and Microbial
Biofilm Characterization in Cellulose-Fed Microbial Fuel Cells. Water Science and Technology, 58(3):
617-622. Zuo, Y., D.
Xing, J.M. Regan, and B.E. Xing, D., Y. Zuo, S.
Cheng, J.M. Regan, and B.E. Logan.
(2008) Electricity Generation by Rhodopseudomonas palustris DX-1. Environmental Science and Technology, 42(11): 4146-4151. Ramasamy, R.P., Z. Ren, M.M. Mench, and J.M. Regan.
(2008) Impact of Initial Biofilm Growth on the Anode Impedance of Microbial
Fuel Cells. Biotechnology and
Bioengineering, 101(1):101-108. Kim, J.R., Y. Zuo, J.M. Regan, and B.E. Logan. (2008) Analysis of Ammonia Loss Mechanisms in Microbial Fuel Cells Treating Animal Wastewater. Biotechnology and Bioengineering, 99(5) 1120-1127. Jung, S., and J.M. Regan (2007). Comparison of Anode Bacterial Communities and Performance in Microbial Fuel Cells with Different Electron Donors. Applied Microbiology and Biotechnology, 77(2):393-402. Ren, Z., T.E. Ward, and J.M. Regan (2007). Electricity Production from
Cellulose in a Microbial Fuel Cell Using a Defined Binary Culture. Environmental
Science & Technology, 41(13):4781-4786. Ren, Z., T.E. Ward, B.E. Kim, J.R., S.H.
Jung, J.M. Regan, B.E. Logan, B.E., J.M. Regan (2006). Electricity-Producing Bacterial Communities in Microbial Fuel Cells. Trends in Microbiology, 14(12): 512-518.
Logan, B.E., J.M. Regan (2006). FEATURE ARTICLE: Microbial Fuel Cells - Challenges and Applications. Environmental Science and Technology, 40(17): 5172-5180.
Min, B., J.-R. Kim,
S.-E. Oh, J.M. Regan, B.E.
Zhang H., B.E. Logan, J.M. Regan,
Noguera D.R., G.E. Pizarro, and J.M. Regan (2004). Modeling Biofilms. pp. 222-249. In Microbial Biofilms, M. Ghannoum and G.
O'Toole (Eds). ASM Press, Regan J.M., G.W. Harrington, H. Baribeau, R. De Leon, and D.R. Noguera (2003). Diversity of Nitrifying Bacteria in Full-Scale Chloraminated Distribution Systems. Water Research, 37(1): 197-205. Regan J.M., P.S. Oldenburg, H.-D. Park, G.W. Harrington, and D.R. Noguera (2003). Simultaneous Determination of Bacterial Viability and Identity in Biofilms using Ethidium Monoazide and Fluorescent In Situ Hybridization. Water Science and Technology, 47(5) 123-128. Regan J.M., G.W. Harrington, and D.R. Noguera (2002). Ammonia- and Nitrite-Oxidizing Bacteria Communities in a Pilot-Scale Chloraminated Drinking Water Distribution System. Applied and Environmental Microbiology, 68(1) 73-81. Park H.-D., J.M. Regan, and D.R. Noguera (2002). Molecular Analysis of Nitrifying Bacterial Populations in Aerated-Anoxic Processes. Water Science and Technology, 46(1-2) 273-280. Clapp, L., J.M. Regan, F. Ali, J. Newman, J. Park and D. Noguera (1999). Activity, Structure, and Stratification of Membrane-attached Methanotrophic Biofilms Cometabolically Degrading Trichloroethylene. Water Science and Technology, 39(7) 153-162. Teske A., E. Alm, J.M. Regan, S. Toze, B.E. Rittmann, and D.A. Stahl (1994). Evolutionary Relationships Among Ammonia and Nitrite-Oxidizing Bacteria. Journal of Bacteriology, 176(21),6623-6630. Rittmann, B.E., J.M. Regan, and D.A. Stahl (1994). Nitrification as a Source of Soluble Organic Substrate in Biological Treatment. Water Science and Technology, 30(6), 1-8.
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