2013

Ahn, Y. and B.E. Logan. 2013. Domestic wastewater treatment using multi-electrode continuous flow MFCs with a separator electrode assembly design. Appl. Microbiol. Biotechnol. 97:409-416.

Ahn, Y. and B.E. Logan. 2013. Altering anode thickness to improve production in microbial fuel cells with different electrode distances. Energy&Fuels 27(1):271-276.

Ahn, Y. and B.E. Logan. 2013. Saline catholytes as alternatives to phosphate buffers in microbial fuel cells. Biores. Technol. 132:436–439. [Supporting information]

Hatzell, M.C., Y. Kim and B.E. Logan. 2013. Increasing performance of MFC/MEC coupled systems with MFCs aligned in parallel and energy storage capacitors. J. Power Sources. In press.

Kim, Y. and B.E. Logan. 2013. Microbial desalination cells for energy production and desalination. Desal. 308:122–130

Kim, Y. and B.E. Logan. 2013. Simultaneous removal of organic matter and salt ions from saline wastewater in bioelectrochemical systems. Desal. 308:115–121.

Luo, X., J.-Y. Nam, F. Zhang, X. Zhang, Peng Liang, X. Huang, and B.E. Logan. 2013. Optimization of membrane stack configuration for efficient hydrogen production in microbial reverse-electrodialysis electrolysis cells coupled with thermolytic solutions. Biores. Technol. In press.

Luo, Y., F. Zhang, B. Wei, G. Liu, R. Zhang, and B.E. Logan. 2013. The use of cloth fabric diffusion layer for scalable microbial fuel cells. Biochem. Eng. J. 73:49-52.

Qu, Y., Y. Feng, J. Liu, W. He, X. Shi, Q. Yang, J. Lv, and B.E. Logan. 2013. Salt removal using multiple microbial desalination cells under continuous flow conditions. Desal. 317:17–22.  [Supporting information]

Ren, L., M. Siegert, I. Ivanov, and B.E. Logan. 2013. Treatability studies on different refinery wastewaters using high-throughput microbial electrolysis (MEC) reactors. Biores. Technol. 136: 322-328. [Supporting information]

Ribot-Llobet, E., J-Y. Nam, J.C. Tokash, A. Guisasola, and B.E. Logan. 2013. Assessment of four different cathode materials at different initial pHs using unbuffered catholytes in microbial electrolysis cells. Int. J. Hydrogen Energy  38:2951-2956.

Tenca, A., R.D. Cusick, A. Schievano, R. Oberti, and B.E. Logan. 2013. Evaluation of low cost cathode materials for treatment of industrial and food processing wastewater using microbial electrolysis cells. Int. J. Hydrogen Energy. 38(4):1859-1865.

Wei, B., J.C. Tokash, F. Zhang, Y. Kim, and B.E. Logan. 2013. Electrochemical analysis of separators used in single-chamber, air-cathode microbial fuel cells. Electrochim. Acta. 89:45–51.

Werner, C.M., B.E. Logan, P.E. Saikaly, and G.L. Amy. 2013. Wastewater treatment, energy recovery and desalination using an air-cathode microbial osmotic fuel cell. J. Membrane Sci. 428:116-122.

Xia, X., J.C. Tokash, F. Zhang, P. Liang, X. Huang, and B.E. Logan. 2013. Oxygen reducing biocathodes operating with passive oxygen transfer in microbial fuel cells. Environ. Sci. Technol. 47(4): 2085–2091.

Yang, F., L. Ren, Y. Pu, and B.E. Logan. 2013. Electricity generation from fermentation solution of primary sludge using single-chambered air-cathode microbial fuel cells. Biores. Technol. 128:784–787.

Zhang, F., X. Xia, Y. Luo, D. Sun, D.F. Call, and B.E. Logan. 2013. Improving startup performance with carbon mesh anodes in separator electrode assembly microbial fuel cells. Biores. Technol. 133:74–81.  [Supporting information]

Zhang, X., J. Shi, P. Liang, J. Wei, X. Huang, C. Zhang, and B.E. Logan. 2013. Power generation by packed-bed air-cathode microbial fuel cells. Biores. Technol. In press.

Zhu, X., M.C. Hatzell, R.D. Cusick, and B.E. Logan. 2013. Microbial reverse-electrodialysis chemical-production cell for acid and alkali production. Electrochem. Commun. 31:52–55.

Zhu, X. and B.E. Logan. 2013. Using single-chamber microbial fuel cells as renewable power sources for electro-Fenton treatment of organic pollutants. J. Haz. Mat. In press.

Zhu, X., J.C. Tokash, Y. Hong, and B.E. Logan. 2013. Influence of anode potentials on power overshoot in microbial fuel cells. Bioelectrochem. 90:30-35.
 

2012

Logan, B.E. and K. Rabaey. 2012. Conversion of wastes into bioelectricity and chemicals using microbial electrochemical technologies. Science, 337:686-690.

Logan, B.E. and M. Elimelech. 2012. Membrane-based processes for sustainable power generation using water and wastewater. Nature. 488:313-319.

Logan, B.E. 2012. Essential data and techniques for conducting microbial fuel cell and other types of bioelectrochemical system experiments. ChemSusChem. I5(6):988- 994.

Ahn, Y. and B.E. Logan. 2012. A multi-electrode continuous flow microbial fuel cell with separator electrode assembly design. Appl. Microbiol. Biotechnol. 93(5):2241-2248.

Chen, G., B. Wei, B.E. Logan and M.A. Hickner. 2012. Cationic fluorinated polymer binders for microbial fuel cell cathodes. RSC Advances. 2, 5856-5862.  [supporting information]

Chen, G., B. Wei, Y. Luo, B.E. Logan, and M.A. Hickner. 2012. Polymer separators for high power, high efficiency microbial fuel cells. ACS Appl. Mat. Interfaces. 4(12):6454–6457. [supporting information]

Cusick, R.D., Y. Kim, and B.E. Logan. 2012. Energy capture from thermolytic solutions in microbial reverse-electrodialysis cells. Science. 335:1474-1477. Abstract [Supporting Information]

Cusick, R.D. and B.E. Logan. 2012. Phosphate recovery as struvite within a single chamber microbial electrolysis cell. Biores. Technol.  107:110-115. [supporting information]

Huang, L., X. Chai, X. Quan, B.E. Logan, and G. Cheng. 2012. Mineralization of pentachlorophenol in biocathode microbial fuel cells. Biores. Technol. 111:167-174.

Huang, L, L. Gan, N. Wang, X. Quan, B.E. Logan, and G. Chen. 2012. Mineralization of pentachlorophenol with enhanced degradation and power generation from air cathode microbial fuel cells. Biotechnol. Bioeng. 109(9):2211-1221.

Ishii, S., B.E. Logan, and Y. Sekiguchi. 2012. Facilitation of electrode reducing rate during the enrichment process in an air-cathode microbial fuel cell. Appl. Microbiol. Biotechnol. 94(4):1087-1094.[supporting information]

Lu, L., N. Ren, D. Xing, and B.E. Logan. 2012. Syntrophic interactions drive the hydrogen production from glucose at low temperature in microbial electrolysis cells: Pyrosequencing and electrochemical characterization. Biores. Technol. 124:68-76.

Mink, J.E., J.P. Rojas, B.E. Logan, and M.M. Hussain. 2012. Vertically grown multi-walled carbon nanotube anode and nickel silicide integrated high performance microsized (1.25 μL) microbial fuel cell. Nanoletters. 12(2):791-795. [supporting information]

Nam, J.-Y., R.D. Cusick, Y. Kim, and B.E. Logan. 2012. Hydrogen generation in microbial reverse-electrodialysis electrolysis cells using a heat-regenerated salt solution. Environ. Sci. Technol. 46(9): 5240-5246.  [supporting information]

Nam, J-Y., and B.E. Logan. 2012. Optimization of catholyte concentration and anolyte pHs in two chamber microbial electrolysis cells. Int. J. Hydrogen Energy.37(24):18622-18628

Pisciotta, J.M., Z. Zaybak, D.F. Call, J.-Y. Nam, and B.E. Logan. 2012. Enrichment of microbial electrolysis cell (MEC) biocathodes from sediment microbial fuel cells (sMFC) bioanodes. Appl. Environ. Microbiol. 78(15):5212-5219.

Qu, Y., Y. Feng, X. Wang, J. Liu, J. Lu, W. He and B.E. Logan. 2012. Simultaneous water desalination and electricity generation in a microbial desalination cell with electrolyte recirculation for pH control. Biores. Technol. 106:89-94.

Qu, Y., Y. Feng, X. Wang, and B.E. Logan. 2012. Using a co-culture to increase current production by Geobacter sulfurreducens. Appl. Environ. Microbiol. 78(9): 3484-3487.

Ren, L., J. Tokash, J.M. Regan and B.E. Logan. 2012. Current generation in microbial electrolysis cells with addition of amorphous ferric hydroxide, Tween 80, or DNA. Int. J. Hydrogen Energy. 37:16943-16950.

Sun, D. D.F. Call, P.D. Kiely, A. Wang, and B.E. Logan. 2012. Syntrophic interactions improve power production in formic acid fed MFCs operated with set anode potentials or fixed resistances. Biotechnol. Bioengin. 109(2): 405–414. [supporting information]

Wagner, R.C., S. Porter-Gill, and B.E. Logan. 2012. Immobilization of anode-attached microbes in a microbial fuel cell. AMB Express. 2(2):1-6.

Wei, B., J.C. Tokash, G. Chen, M.A. Hickner and B.E. Logan. 2012. Development of low-cost activated carbon cathodes for use in air-cathode microbial fuel cells. RSC Advances. 2(33):12751-12758.

Yang, Q., Y. Feng, and B.E. Logan. 2012. Using cathode spacers to minimize reactor size in air cathode microbial fuel cells. Biores. Technol. 110:273-277.

Yates, M.D., P.D. Kiely, D.F. Call, H. Rismani-Yadzi, K. Bibby, J. Peccia J.M. Regan, and B.E. Logan. 2011. Convergent development of bacterial communities in microbial fuel cells. J. ISME. 6(11):2002-2013.

Zhang, F., G. Chen, M.A. Hickner, and B.E. Logan. 2012. Novel anti-flooding cathodes constructed using poly(dimethylsiloxane) (PDMS) binder for microbial fuel cells. J. Power Sources. 218:100-105.

Zhu, X., M.D. Yates, and B.E. Logan. 2012. Set potential regulation reveals additional oxidation enzyme peaks of Geobacter sulfurreducens anodic biofilms. Electrochem. Commun. 22:116-119.

2011

Ambler, J.R. and B.E. Logan. 2011. Evaluation of stainless steel cathodes and a bicarbonate buffer for hydrogen production in microbial electrolysis cells using a new method for measuring gas production. Int. J. Hydrogen Energy. 36(1):160-166. [supporting information]

Angenent, L. M. Rosenbaum, R. Rozendal, K. Rabaey, B. E. Logan, and U. Schröder. 2011. Comments on “Electricity generation by Enterobacter cloacae SU-1 in mediator less microbial fuel cell” by Samrot et al. Int. J. Hydrogen Energy 36(15): 9396-9397.

Call, D.F., and B.E. Logan. 2011. A method for high throughput bioelectrochemical research based on small scale microbial electrolysis cells. Biosen. Bioelectron. 26(11): 4526-4531.

Call, D.F. and B.E. Logan. 2011. Lactate oxidation coupled to iron or electrode reduction by Geobacter sulfurreducens. Appl. Environ. Microbiol. 77(24): 8791–8794.

Cheng, S., J.-H. Jang, B.A. Dempsey, and B.E. Logan. 2011. Efficient recovery of nano-sized iron oxide particles from synthetic acid-mine drainage (AMD) water using fuel cell technologies. Wat. Res. 45(1):303-307.

Cheng, S., P. Kiely, and B.E. Logan. 2011. Pre-acclimation of a wastewater inoculum to cellulose in an aqueous-cathode MFC improves power generation in air-cathode MFCs. Biores. Technol.102(1):367-371.

Cheng, S. and B.E. Logan. 2011. High hydrogen production rate of microbial electrolysis cell (MEC) with reduced electrode spacing. Biores. Technol. 102(4): 3571–3574.

Cheng, S., and B.E. Logan. 2011. Increasing power generation for scaling up single-chamber air cathode microbial fuel cells. Biores. Technol.  102(6): 4468-4473.

Cheng, S., D. Xing, and B.E. Logan. 2011. Electricity generation of single-chamber microbial fuel cells at low temperature. Biosen. Bioelectron. 26(5): 1913–1917.

Cusick, R.D., B. Bryan, D.S. Parker, M. Merrill, M. Mehanna, P.D. Kiely, G. Liu, and B.E. Logan. 2011. Performance of a pilot-scale continuous flow microbial electrolysis cell fed winery wastewater. Applied Microbiol. Biotechnol. 89(6): 2053–2063. [supporting information]

Hays, S., F. Zhang, and B.E. Logan. 2011. Performance of two different types of anodes in membrane electrode assembly microbial fuel cells for power generation from domestic wastewater. J. Power Sources. 196(20): 8293– 8300.

Hong, Y., D.F. Call, C.M. Werner, and B.E. Logan. 2011. Adaptation to high current using low external resistances eliminates power overshoot in microbial fuel cells. Biosen. Bioelectron. 28(1):71-76. [supporting information]

Huang, L., L. Gan, Q. Zhao, B.E. Logan, H. Lu, and G. Chen. 2011. Degradation of pentachlorophenol with the presence of fermentable and non-fermentable co-substrates in a microbial fuel cell. Biores. Technol. 102(19):8762-8768.

Huang, L., X, Chai, G. Chen, and B.E. Logan. 2011. Effect of set potential on hexavalent chromium reduction and electricity generation from biocathode microbial fuel cells. Environ. Sci. Technol. 45(11): 5025–5031.

Hutchinson, A., J. Tokash, and B.E. Logan. 2011. Analysis of carbon fiber brush loading in anodes on startup and performance of microbial fuel cells. J. Power Sources. 196(22):9213– 9219.

Kiely, P.D., G.K. Rader, J.M. Regan, and B.E. Logan. 2011. Long-term cathode performance and the microbial communities that develop in microbial fuel cells fed different fermentation endproducts. Biores. Technol.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. Biores. Technol. 102(1):388-394.

Kiely, P.D., J.M. Regan and B.E. Logan. 2011. The electric picnic: Synergistic requirements for exoelectrogenic microbial communities. Current Op. Biotechnol. 22(3):378-385

Kim, Y., M.C. Hatzell, A.J. Hutchinson, and B.E. Logan. 2011. Capturing power at higher voltages from arrays of microbial fuel cells without voltage reversal. Energy Env. Sci. 4(11):4662-4667.

Kim, Y. and B.E. Logan. 2011. Hydrogen production from inexhaustible supplies of fresh and salt water using microbial reverse-electrodialysis electrolysis cells. Proc. Nat. Acad. Sci. 108(39):16176-16181.

Kim, Y. and B.E. Logan. 2011. Microbial reverse electrodialysis cells for synergistically enhanced power production. Environ. Sci. Technol. 45(13):5834–5839.

Kim, Y. and B.E. Logan. 2011. Series assembly of microbial desalination cells containing stacked electrodialysis cells for partial or complete seawater desalination. Environ. Sci. Technol. 45(13):5840–5845.

La Mantia, F., M. Pasta, H.D. Deshazer, B.E. Logan, and Y. Cui. 2011. Batteries for efficient energy extraction from a salinity difference. Nanoletters, 11(4):1810–1813.

Liu, G., M.D. Yates, S. Cheng, D.F. Call, D Sun, and B.E. Logan. 2011. Examination of microbial fuel cell start-up times with domestic wastewater and additional amendments. Biores. Technol. 103(15)7301-7306. [supporting information]

Luo, Y., F. Zhang, B. Wei, G. Liu, R. Zhang, and B.E. Logan. 2011. Power generation using carbon mesh cathodes with different diffusion layers in microbial fuel cells. J. Power Sources. 196(22):9317– 9321.

Nam, J.Y., and B.E. Logan. 2011. Enhanced hydrogen generation using a highly saline catholyte in a two chamber microbial electrolysis cell. Int. J. Hydrogen Energy. 36(23): 15105-15110.

Nam, J.-Y. J.C. Tokash, and B.E. Logan. 2011. Comparison of microbial electrolysis cells operated with added voltage or by setting the anode potential. Int. J. Hydrogen Energy. 36(17):10550-10556.

Saito, T., M. Mehanna, X. Wang, R. Cusick, Y. Feng, M.A. Hickner, and B.E. Logan. 2011. Effect of nitrogen addition on the performance of microbial fuel cell anodes. Biores. Technol. 102(1):395-398. [supporting information]

Saito, T., T.H. Roberts, T.E. Long, B.E. Logan, and M.A. Hickner. 2011. Neutral hydrophilic cathode catalyst binders for microbial fuel cells. Energy Env. Sci. 4(3):928-934.

Tokash, J.C. and B.E. Logan. 2010. Electrochemical evaluation of a molybdenum disulfide catalyst for the hydrogen evolution reaction under solution conditions applicable to microbial electrolysis cells. Int. J. Hydrogen Energy. 36(16): 9439-9445.

Wang, X., S. Cheng, X. Zhang, X.-Y. Li, and B.E. Logan. 2011. Impact of salinity on cathode catalyst performance in microbial fuel cells (MFCs). Int. J. Hydrogen Energy. 36(21):13900-13906.

Wang, A., D. Sun, G. Cao, N. Ren, W. Wu, and B.E. Logan. 2011. Integrated hydrogen production process from cellulose by combining dark fermentation, microbial fuel cells, and a microbial electrolysis cell. Biores. Technol. 102(5): 4137-4143.

Watson, V.J. and B.E. Logan. 2011. Analysis of polarization methods for elimination of power overshoot in microbial fuel cells. Electrochem. Commun. 13(1):54-56.

Watson, V.J., T. Saito, M.A. Hickner, and B.E. Logan. 2011. Polymer coatings as separator layers for microbial fuel cell cathodes. J. Power Sources. 196(6):3015-3025.

Zhang, F., M.D. Merrill, J.C. Tokash, T. Saito, S. Cheng, M.A. Hickner, and B.E. Logan. 2011. Mesh optimization for microbial fuel cell cathodes constructed around stainless steel mesh current collectors”. J. Power Sources. 196(3):1097–1102. [Supporting Information]

Zhang, F., D. Pant, and B.E. Logan. 2011. Long-term performance of activated carbon air cathodes with different diffusion layer porosities in microbial fuel cells. Biosen. Bioelec. 30(1):49-55. [Supporting Information]

Zhang, X, S. Cheng, P. Liang, X. Huang, and B.E. Logan. 2011. Scalable air cathode microbial fuel cells using glass fiber separators, plastic mesh supporters, and graphite fiber brush anodes. Biores. Technol. 102(1):372-375. [supporting information]

Zhang, X., P. Liang, X. Huang, H. Sun, X. Chen, and B.E. Logan. 2011. Air-cathode structure optimization in separator-coupled microbial fuel cells. Biosen. Bioelectron. 30(1):267-271.

Zuo, Y. and B.E. Logan. 2011. Power generation in MFCs with architectures based on tubular cathodes or fully tubular reactors. Wat. Sci. Technol. 64(11):2253-2258.

2010

Logan, B.E. 2010. Scaling up microbial fuel cells and other bioelectrochemical systems. Appl. Microbiol. Biotechnol. 85(6):1665-1671.

Cusick, R.D., P.D. Kiely, and B.E. Logan. 2010. A monetary comparison of energy recovered from microbial fuel cells and microbial electrolysis cells fed winery or domestic wastewaters. Int. J. Hydrogen Energy. 35(17):8855-8861

Deng, Q., X. Li, J.E. Zuo, B.E. Logan, and A. Ling. 2010. Power generation using an activated carbon fiber felt (ACFF) cathode in an upflow microbial fuel cell. J. Power Sources. 195(4): 1130-1135.

Feng, Y., Yang, Q., Wang, X, and B.E. Logan. 2010. Treatment of graphite fiber brush anodes for improving power generation in air-cathode microbial fuel cells. J. Power Sources. 195(7):1841–1844.

Feng, Y., Y.-H. Cui, J. Liu, and B.E. Logan. 2010. Factors affecting the electro-catalytic characteristics of Eu doped SnO2/Sb electrode. J. Haz. Mat. 178(1-3):29-34.

Kiely, P.D., D.F. Call, M.D. Yates, J.R. Regan, and B.E. Logan. 2010. Anodic biofilms in microbial fuel cells harbor low numbers of higher-power producing bacteria than abundant genera. Appl. Microbiol. Biotechnol. 88(1):371–380.

Liu, W., A. Wang, S. Cheng, B.E. Logan, H. Yu, Y. Deng, J.D. Van Nostrand, L. Wu, Z. He, and J. Zhou. 2010. Geochip-based functional gene analysis of anodophilic communities in microbial electrolysis cells under different operational models. Environ. Sci. Technol. 44(19):7729-7735.

Lu, L., N. Ren, T. Xie, D. Xing, and B.E. Logan. 2010. Hydrogen production from proteins via electrohydrogenesis in microbial electrolysis cells. Biosen. Bioelectron. 25(12):2690-2695.

Mehanna, M., P.D. Kiely, D.F. Call, and B.E. Logan. 2010. A microbial electrodialysis cell for simultaneous water desalination and hydrogen gas production. Environ. Sci. Technol. 44(24):9578–9583.

Mehanna, M., T. Saito, Y. Jingling, M.A. Hickner, X. Cao, X. Huang, B.E. Logan. 2010. Using microbial desalination cells to reduce water salinity prior to reverse osmosis. Energy Environ. Sci. 3(8):1114 - 1120.

Nam, J-Y, H-W Kim, K-H Lim, H-S Shin, and B.E. Logan. 2010. Variation of power generation at different buffer types and conductivities in single chamber microbial fuel cells. Biosen. Bioelec. 25(5): 1155–1159.

Rader, G.K. and B.E. Logan. 2010. Multi-electrode continuous flow microbial electrolysis cell for biogas production from acetate. Int. J. Hydrogen Energy. 35(17): 8848-8854.

Rezaei, F., T.L. Richard, and B.E. Logan. 2010. Letter to the Editor: Comment on “Electricity generation by Enterobacter cloacae SU-1 in mediator less microbial fuel cell” by Samrot et al. Int. J. Hydrogen Energy. 35(19):10635.  [Reply by authors]

Saito, T., M.D. Merrill, V.J. Watson, B.E. Logan, and M. A. Hickner. 2010. Investigation of ionic polymer cathode binders for microbial fuel cells. Electrochim. Acta. 55(9):3398-3403.

Selembo, P.A., M.D. Merrill, and B.E. Logan. 2010. Hydrogen production with nickel powder cathode catalysts in microbial electrolysis cells. Int. J. Hydrogen Energy. 35(2):428-437.

Wagner, R.C., D.F. Call, and B.E. Logan. 2010. Optimal set anode potentials vary in bioelectrochemical systems. Environ. Sci. Technol. 44(16): 6036–6041.

Wang, A., D. Sun, N. Ren, C. Liu, W. Liu, B.E. Logan, and W Wu. 2010. A rapid selection strategy for anodophilic functional consortia in microbial fuel cells and microbial electrolysis cells. Biores. Technol. 101(14):5733-5735.

Watson, V.J., and B.E. Logan. 2010. Power production in MFCs inoculated with Shewanella oneidensis MR-1 or mixed cultures. Biotechnol. Bioengin. 105(3):489-498.

Xing, D., S. Cheng, J.M. Regan, and B.E. Logan. 2010. Isolation of the exoelectrogenic denitrifying bacterium Comamonas denitrificans based on dilution-to-extinction of the microbial community. Appl. Microbiol. Biotechnol. 85(5)1575-1587.

Zhang, F. T. Saito, S. Cheng, M.A. Hickner, and B.E. Logan. 2010. Microbial fuel cells cathodes constructed from stainless steel mesh that use poly(dimethylsiloxane) diffusion layers. Environ. Sci. Technol. 44(4):1490-1495.

Zhang, X., S. Cheng, X. Huang and B.E. Logan. 2010. Improved performance of single-chamber microbial fuel cells through control of membrane deformation. Biosen. Bioelectron. 25(7):1553-1858.

Zhang, X., S. Cheng, X. Huang, and B.E. Logan. 2010. The use of nylon and glass fiber filter separators with different pore sizes in air-cathode single-chamber microbial fuel cells. Energy Environ. Sci. 3(5):659-664.

Zhang, Y., M.D. Merrill, and B.E. Logan. 2010. The use and optimization of stainless steel mesh cathodes in microbial electrolysis cells. Int. J. Hydrogen Energy. 35(21):12020-12028. [Supporting information]
 

2009

Logan, B.E. 2009. Exoelectrogenic bacteria that power microbial fuel cells. Nature Rev. Microbiol., 7(5):375-381.

Ahn, Y. and B.E. Logan. 2009. Domestic wastewater treatment using microbial fuel cells and electrical energy production. Biores. Technol. 101(2):469-475.

Call, D.F., R. Wagner, and B.E. Logan. 2009. Hydrogen production by Geobacter species and a mixed consortium in a microbial electrolysis cell. Appl. Environ. Microbiol. 75(24):7579-7587.

Call, D., M. Merrill, and B.E. Logan. 2009. High Surface Area Stainless Steel Brushes as Cathodes in Microbial Electrolysis Cells (MECs). Environ. Sci. Technol. 43(6):2179-2183.

Cao, X., X. Huang, P. Liang, K. Xiao, Y. Zhou, X. Zhang, and B.E. Logan. 2009. A new method for water desalination using microbial desalination cells. Environ. Sci. Technol. 43(18):7148–7152. [ES&T newstory]

Cheng, S., D. Xing, D. Call, and B.E. Logan. 2009. Direct biological conversion of electrical current into methane by electromethanogenesis. Environ. Sci. Technol. 43(10):3953-3958. [ES&T news]

Selembo, P.A., M.D. Merrill, and B.E. Logan. 2009. The use of stainless steel and nickel alloys as low-cost cathodes in microbial electrolysis cells. J. Power Sources. 190(2):271–278.

Merrill, M.D., and B.E. Logan. 2009. Electrolyte effects on hydrogen evolution and solution resistance in microbial electrolysis cells. J. Power Sources. 191(2):203-208.

Yu, E.H., S. Cheng, K. Scott, R. Chetty, B.E. Logan. 2009. Electrochemical reduction of oxygen with iron phthalocyanine in neutral media. J. Appl. Electrochem. 39(6):705–711.

Huang, L., S. Cheng, F. Rezaei, and B.E. Logan. 2009. Reducing organic loads in industrial effluents using microbial fuel cells. Environ. Technol. 30(5):499-504.

Lu, L., N. Ren, D. Xing, and B.E. Logan. 2009. Hydrogen production with effluent from an ethanol-H2-coproducing fermentation reactor using a single-chamber microbial electrolysis cell. Biosen. Bioelec. 24(10):3055-3060.

Wang, A., W. Liu, S. Cheng, D. Xing, J. Zhou, and B.E. Logan. 2009. Source of methane and methods to control its formation in single chamber microbial electrolysis cells. Int. J. Hydrogen Energy. 34(9):3653-3658.

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. Appl. Environ. Microbiol. 75(11):3673-3678.

Rezaei, F., T.L. Richard, and B.E. Logan. 2009. Analysis of chitin particle size on maximum power generation, power longevity, and coulombic efficiency in solid-substrate microbial fuel cells. J. Power Sources. 192(2):304-309.

Cheng, S. and B.E. Logan. 2009. Erratum for "Evaluation of catalysts and membranes for high yield biohydrogen production via electrohydrogenesis in microbial electrolysis cells (MECs). Water Sci. Technol. 2008, 58(4):853-857",  Water Sci. Technol. 59(10):2081.

Selembo, P.A., J.M. Perez, W.A. Lloyd, and B.E. Logan. 2009. High hydrogen production from glycerol or glucose by electrohydrogenesis using microbial electrolysis cells. Int. J. Hydrogen Energy. 34(13):5373-5381.

Lalaurette, E., S. Thammannagowda, A. Mohagheghi, P.-C. Maness, and B.E. Logan. 2009. Hydrogen production from cellulose in a two-stage process combining fermentation and electrohydrogenesis. Int. J. Hydrogen Energy. 34(15):6201-6210.

Oh, S-E., J.-R. Kim, J.-H. Joo, and B.E. Logan. 2009. Effects of applied voltages and dissolved oxygen on sustained power generation by microbial fuel cells. Water Sci. Technol. 60(5):1311-1317.

Oh, S.-E., Y. Zuo, M.J. Guiltinen, 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. Int. J. Hydrogen Energy. 34(23): 9347-9353.

Velásquez-Orta, S.B., T.P. Curtis, and B.E. Logan. 2009. Energy from algae using microbial fuel cells. Biotechnol. Bioengin. 103(6):1068-1076.

Wang, X., Y. Feng, H. Wang, Y. Qu, Y. Yu, N. Ren, N. Li, E. Wang, H. Lee, and B.E. Logan. 2009 Bioaugmentation for electricity generation from corn stover biomass using microbial fuel cells. Environ. Sci. Technol. 43(15)6088-6093.

Wang, X., S. Cheng, Y. Feng, M.D. Merrill, T. Saito, and B.E. Logan. 2009. The use of carbon mesh anodes and the effect of different pretreatment methods on power production in microbial fuel cells. Environ. Sci. Technol. 43(17):6870-6874.

Wagner, R.C., J.M. Regan, S.-E. Oh, Y. Zuo, and B.E. Logan. 2009. Hydrogen and methane production from swine wastewater using microbial electrolysis cells. Wat. Res. 43(4):1480-1488.

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. Biosens Bioelec. 25(1):105-111.

Zhang, F., S. Cheng , D. Pant, G. Van Bogaert, and B.E. Logan. 2009. Power generation using an activated carbon and metal mesh cathode in a microbial fuel cell. Electrochem. Commun. 11(11):2177-2179.

Zhang, X., S. Chen, X. Wang, X. Huang, and B.E. Logan. 2009. Separator characteristics for increasing performance of microbial fuel cells. Environ. Sci. Technol. 43(21):8456-8461.

Selembo, P.A., J.M. Perez, W.A. Lloyd, and B.E. Logan. 2009. Enhanced hydrogen and 1,3-propanediol production from glycerol by fermentation using mixed cultures. Biotechnol. Bioeng. 104(6):1098-1106.
 

2008

Logan, B.E., R.A. Rozendal, H.V.M. Hamelers, D. Call, S. Cheng, T.H.J.A. Sleutels, A.W. Jeremiasse. 2008. Microbial Electrolysis Cells for High Yield Hydrogen Gas Production from Organic Matter. Environ. Sci. Technol. 42(23):8630-8640.

Call, D. and B.E. Logan. 2008. Hydrogen Production in a Single Chamber Microbial Electrolysis Cell Lacking a Membrane. Environ. Sci. Technol.  42(9):3401-3406.

Xing, D., Y. Zuo, S. Cheng, J.M. Regan,and B.E. Logan. 2008. Electricity Generation by Rhodopseudomonas palustris DX-1. Environ. Sci. Technol. 42(11): 4146-4151

Zuo, Y., D. Xing, J.M. Regan, and B.E. Logan. 2008. Isolation of the Exoelectrogenic Bacterium Ochrobactrum anthropi YZ-1 by Using a U-tube Microbial Fuel Cell. Appl. Environ. Microbiol. 74(10):3130-3137.

Zuo, Y., S. Cheng and B.E. Logan. 2008. Ion Exchange Membrane Cathodes for Scalable Microbial Fuel Cells. Environ. Sci. Technol. 42(18): 6967-6972.

Kim, J.-R., J. Dec, M.A. Bruns, and B.E. Logan. 2008. Removal of Odors from Swine Wastewater by Using Microbial Fuel Cells. Appl. Environ. Microbiol. 74(8):2540-2543.

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. Biotechnol. Bioengin. 99(5):1120-1127.

Feng, Y., X. Wang, B. E. Logan, and H. Lee. 2008. Brewery wastewater treatment using air-cathode microbial fuel cells. Appl. Microbiol. Biotechnol. 78(5):873-880.

Liu, H., S. Cheng, L. Huang, and B.E. Logan. 2008. Scale-up of membrane-free single-chamber microbial fuel cells. J. Power Sources. 179:274-279.

Huang, L. and B.E. Logan. 2008. Electricity generation and treatment of paper recycling wastewater using a microbial fuel cell. Appl. Microbiol. Biotechnol. 80(2):349–355.

Shimoyama, T., S. Komukai, A. Yamazawa, Y. Ueno, B.E. Logan, and K. Watanabe. 2008. Electricity generation from model organic wastewater in a cassette-electrode microbial fuel cell. Appl. Microbiol. Biotechnol. 80(2):325-330.

Rezaei, F., T.L. Richard, and B.E. Logan. 2008. Enzymatic Hydrolysis of Cellulose Coupled With Electricity Generation in a Microbial Fuel Cell. Biotechnol. Bioengin. 101(6):1163-1169.

Cheng, S. and B.E. Logan. 2008. Evaluation of catalysts and membranes for high yield biohydrogen production via electrohydrogenesis in microbial electrolysis cells (MECs). Water Sci. Technol. 58(4):853-857 (erratum included in file; for just erratum, see 2009 publications)

Ishii, S., K. Watanabe, S. Yabuki, B.E. Logan, and Y. Sekiguchi. 2008. Comparison of Electrode Reduction Activities of Geobacter sulfurreducens and an Enriched Consortium in an Air-Cathode Microbial Fuel Cell. Appl. Environ. Microbiol. 74(23):7348-7355.

Huang, L., and B.E. Logan. 2008. Electricity production from xylose in fed-batch and continuous-flow microbial fuel cells. Appl. Microbiol. Biotechnol. 80(4), 655-664.

Luo, Y., H. Zhang, M. Salerno, B.E. Logan and M.A. Bruns. 2008. Organic loading rates affect composition of soil-derived bacterial communities during continuous, fermentative biohydrogen production. Int. J. Hyd. Energy. 33(22):6566–6576.

Logan, B.E. 2008. Microbial fuels for the future. (Review of the book “Bioenergy”). Nature, 454, 943-944.

Feng, Y., Y. Cui, and B.E. Logan. 2008. Performance of Gd-doped Ti-based Sb-SnO2 anodes for electrochemical destruction of phenol. Chemosphere. 70(9):1629-1636.

Serra, T., J. Colomer, and B.E. Logan. 2008. Efficiency of different shear devices on flocculation. Wat. Res., 42(4-5):1113-1121.

Ma, H., C.J. Winslow, and B.E. Logan. 2008. Spectral force analysis using atomic force microscopy reveals the importance of surface heterogeneity in bacterial and colloid adhesion to engineered surfaces. Coll. Surf. B, 62(2):232–237.

2007

Logan, B.E., S. Cheng, V. Watson, and G. Estadt. 2007. Graphite Fiber Brush Anodes for Increased Power Production in Air-Cathode Microbial Fuel Cells. Environ. Sci. Technol., 41(9):3341-3346. 

Zuo, Y., S. Cheng, D. Call and B.E. Logan. 2007. Tubular Membrane Cathodes for Scalable Power Generation in Microbial Fuel Cells. Environ. Sci. Technol. 41(9):3347-3353. 

Cheng, S., and B.E. Logan. 2007. Sustainable and efficient biohydrogen production via electrohydrogenesis. PNAS, 104(47): 18871–18873. [#12 most accessed paper in PNAS, Nov. 2007]

Kim, J. R., S.-E. Oh, S. Cheng, and B.E. Logan. 2007. Power Generation Using Different Cation, Anion and Ultrafiltration Membranes in Microbial Fuel Cells. Environ. Sci. Technol. 41(3):1004-1009.

Cheng, S. and B.E. Logan. 2007. Ammonia treatment of carbon cloth anodes to enhance power generation of microbial fuel cells. Elec. Comm. 9, 492-496. [A “most cited” article in this journal, 2005-2009; 11-19-10]

Kim, J.R., S.H. Jung, B.E. Logan, and J. Regan. 2007. Electricity generation and microbial community analysis of alcohol powered microbial fuel cells. Bioresource Technol. 98(13): 2568-2577.

Oh, S.-E., and B.E. Logan. 2007. Voltage reversal during microbial fuel cell stack operation. J. Power Sources 167(1):11-17.

Rezaei, F., T.L. Richard, R. Brennan, and B.E. Logan. 2007. Substrate-Enhanced Microbial Fuel Cells for Improved Remote Power Generation from Sediment-Based Systems. Environ. Sci. Technol. 41(11):4053-4058.

Ditzig, J., H. Liu and B.E. Logan. 2007. Production of hydrogen from domestic wastewater using a bioelectrochemically assisted microbial reactor (BEAMR). Internat. J. Hydrogen Energy. 32(13), 2296-2304.

Yu, E.H., S. Cheng, K. Scott, and B.E. Logan. 2007. Microbial fuel cell performance with non-Pt cathode catalysts. J. Power Sources, 171(2)275-281.

Cheng, S., B.A. Dempsey, and Bruce E. Logan. 2007. Electricity Generation from Synthetic Acid-Mine Drainage (AMD) Water using Fuel Cell Technologies. Environ. Sci. Technol. 41(23):8149-8153.

Ren, Z., T. Ward, B.E. Logan, and J.M. Regan. 2007. Characterization of the cellulolytic and hydrogen-producing activities of six mesophilic Clostridium species. J. Applied Microbiol. 103(6): 2258–2266.

Salerno, M.B., X. Li and B.E. Logan. 2007. Adhesion characteristics of two Burkholderia cepacia strains examined using colloid probe microscopy and gradient force analysis. Colloids Surf. B. 59(1):46-51.

2006

Logan, B.E. and J.M. Regan. 2006. Feature Article: Microbial Fuel Cells-Challenges and Applications. Environ. Sci. Technol. 40(17):5172-5180.

Logan, B.E., P. Aelterman, B. Hamelers, R. Rozendal, U. Schröeder, J. Keller, S. Freguiac, W. Verstraete, K. Rabaey. 2006. Microbial Fuel Cells: Methodology and Technology. Environ. Sci. Technol. 40(17):5181-5192. [#6 accessed paper for ES&T for 2006; #1 for for July – September 2006“Hot paper” in Chemistry, defined as one of 200 papers receiving the most citations in a 2 month period; 11-07; and 2-08]

Logan, B.E. 2006. Invited editorial: Energy diversity brings stability. Environ. Sci. Technol 40(17):5161.

Gorby, Y. A., S. Yanina, J.S. McLean, K.M. Rosso, D. Moyles, A. Dohnalkova, T.J. Beveridge, I.S. Chang, B.H. Kim, K.S. Kim, D.E. Culley, S.B. Reed, M.F. Romine, D.A. Saffarini, E.A. Hill, L. Shi, D.A Elias, D.W. Kennedy, G. Pinchuk, K. Watanabe, S. Ishii, B.E. Logan, K.H. Nealson, J.K. Fredrickson. 2006. Electrically conductive bacterial nanowires produced by Shewanella oneidensis strain MR-1 and other microorganisms. PNAS 103(30):11358-11363. [Errata; 2009, 106(23):9395]

Cheng, S., H. Liu and B.E. Logan. 2006. Power Densities Using Different Cathode Catalysts (Pt and CoTMPP) and Polymer Binders (Nafion and PTFE) in Single Chamber Microbial Fuel Cells. Environ. Sci. Technol. 40(1):364-369. [“Hot paper” in Chemistry, defined as one of 200 papers receiving the most citations in a 2 month period; 2-22-07]

Cheng, S., H. Liu and B.E. Logan. 2006. Increased performance of single-chamber microbial fuel cells using an improved cathode structure. Electrochem. Comm. 8:489-494. (Among the 25 most cited articles in this journal between 2005-2009)

Logan, B.E. and J.M. Regan. 2006. Electricity-producing bacterial communities in microbial fuel cells. Trends Microbiol. 14(12):512-5118.

Cheng, S, H. Liu and B.E. Logan. 2006. Increased Power Generation in a Continuous Fow MFC with Advective Flow through the Porous Anode and Reduced Electrode Spacing. Environ. Sci. Technol. 40(7):2426-2432.

Oh, S. and B.E. Logan. 2006. Proton exchange membrane and electrode surface areas as factors that affect power generation in microbial fuel cells. Appl. Microbiol. Biotechnol. 70(2):162-169.

Heilmann, J. and B.E. Logan. 2006. Production of Electricity from Proteins Using a Microbial Fuel Cell. Water Environ. Res. 78(5):1716-1721.

Zuo, Y., P.-C. Maness, and B.E. Logan. 2006. Electricity Production from Steam-Exploded Corn Stover Biomass. Energy & Fuels 20(4):1716-1721.

Zhang, H., M.A. Bruns, and B.E. Logan. 2006. Biological hydrogen production by Clostridium acetobutylicum in an unsaturated flow reactor. Wat. Res. 40(4):728-734.

Salerno, M.B., W. Park, Y. Zuo, and B.E. Logan. 2006. Inhibition of biohydrogen production by ammonia Wat. Res. 40(6):1167-1172.

Salerno, M.B., M. Flamm, B.E. Logan, D. Velegol. 2006. Transport of Rodlike Colloids through Packed Beds. Environ. Sci. Technol. 40(20):6336-6340

Vadillo-Rodriguez, V. and B.E. Logan. 2006. Localized Attraction Correlates with Bacterial Adhesion to Glass and Metal Oxide Substrata. Environ. Sci. Technol., 40(9):2983-2988.

Xu, L.-C., and B.E. Logan. 2006. Adhesion forces between functionalized latex microspheres and protein-coated surfaces evaluated using colloid probe atomic force microscopy. Coll. Surf. B Biointerf. 48(1):84-94.

Xu, L.-C., and B.E. Logan. 2006. Interaction Forces Measured Using AFM between Colloids and Surfaces Coated with Both Dextran and Protein. Langmuir, 22(10):4720-4727.

Paramonova, E., E.L. Zerfoss, and B.E. Logan. 2006. Measurement of Biocolloid Collision Efficiencies for Granular Activated Carbon by Use of a Two-Layer Filtration Model. Appl. Environ. Microbiol. 72(8):5190-5196.

Kwon, K.D., V. Vadillo-Rodriguez, B.E. Logan, and J.D. Kubicki. 2006. Interactions of biopolymers with silica surfaces: Force measurements and electronic structure calculation studies. Geochim. et Cosmochim. 70:3803-3819.

2005

Liu, H., S. Grot and B.E. Logan. 2005. Electrochemically Assisted Microbial Production of Hydrogen from Acetate. Environ. Sci. Technol., 39(11):4317-4320. {See also: ES&T news story p. 235A}  [#10 most accessed paper for ES&T for 2005; #13 in 2006]

Liu, H., S. Cheng, and B.E. Logan. 2005. Production of Electricity from Acetate or Butyrate Using a Single Chamber Microbial Fuel Cell. Environ. Sci. Technol., 39(2):658-662.

Kim, J.-R., B. Min and B.E. Logan. 2005. Evaluation of procedures to acclimate a microbial fuel cell for electricity production. Appl. Microbiol. Biotechnol. 68(1):23-30.

Logan, B.E., C. Murano, K. Scott, N.D. Gray and I.M. Head. 2005. Electricity generation from cysteine in a microbial fuel cell.  Wat Res., 39(5):942-952.

Liu, H., S. Cheng, and B.E. Logan. 2005. Power Generation in Fed-Batch Microbial Fuel Cells as a Function of Ionic Strength, Temperature, and Reactor Configuration. Environ. Sci. Technol. 39(14):5488-5493.

Min, B., S. Cheng, and B.E. Logan. 2005. Electricity generation using membrane and salt bridge microbial fuel cells. Wat. Res.  39(5):942-952. 

Min, B., J.-R. Kim, S.-E. Oh, J.M. Regan, and B.E. Logan. 2005. Electricity generation from swine wastewater using microbial fuel cells. Wat. Res., 39(20):4961-4968.

Oh, S.-E. and B.E. Logan. 2005. Hydrogen and electricity production from a food processing wastewater using fermentation and microbial fuel cell technologies. Wat. Res. 39(19):4673-4682.

Logan, B.E. 2005. Editorial- Generating Electricity from Wastewater Treatment.  Wat. Environ. Res. 77(3):209.

Logan, B.E. 2005. Simultaneous wastewater treatment and biological electricity generation. Wat. Sci. Technol. 52(1-2):31-37.

Van Ginkel, S.W. and B.E. Logan. 2005. Increased biological hydrogen production with reduced organic loading. Wat. Res. 39(16):3819-3826.

Van Ginkel, S., S.-E. Oh, and B.E. Logan. 2005. Biohydrogen gas production from food processing and domestic wastewaters. Int. J. Hydrogen Energy. 39(16):3819-3826.

Van Ginkel, S.W. and B.E. Logan. 2005. Inhibition of Biohydrogen Production by Undissociated Acetic and Butyric Acids. Environ. Sci. Technol. 39(23):9351-9356.

Park, W, S.H. Hyun, B.E. Logan, and I.S. Kim. 2005. Removal of Headspace CO2 Increases Biological Hydrogen Production. Environ. Sci. Technol., 39(12):4416-4420.

Steinberg, L., J. Trimble, and B.E. Logan. 2005. Enzymes responsible for chlorate reduction by Pseudomonas sp. are different from those used for perchlorate reduction by Azospira sp. FEMS Microb. Lett. 247:153-159.

Zhang, H, B.E. Logan, J.M. Regan, L.A. Achenbach, and M.A. Bruns.  2005. Molecular Assessment of Inoculated and Indigenous Bacteria in Biofilms from a Pilot-Scale Perchlorate-Reducing Bioreactor. Microb. Ecol. 49(3):388-398.

Li, B. and B.E. Logan. 2005. The impact of ultraviolet light on bacterial adhesion to glass and metal oxide-coated surface. Coll. Surf. B: Biointerf. 41:153-161.

Xu, L.-C., and B.E. Logan. 2005. Interaction Forces between Colloids and Protein-Coated Surfaces Measured Using an Atomic Force Microscope. Environ. Sci. Technol.  39(10):3592-3600.

Xu, L.-C., V. Vadillo-Rodriguez, and B.E. Logan. 2005. Residence time, loading force, pH and ionic strength affect adhesion forces between colloids and biopolymer-coated surfaces. Langmuir, 21(16):7491-7500.

Salerno, M.B, Rothsteina, S., Nwachukwua, C., Shelbia, H., Velegol. D. and B.E. Logan. 2005. Differences between Chemisorbed and Physisorbed Biomolecules on Particle Deposition to Hydrophobic Surfaces. Environ. Sci. Technol. 39(17):6371-6377

2004

Liu, H., R. Ramnarayanan and B.E. Logan. 2004. Production of Electricity during Wastewater Treatment Using a Single Chamber Microbial Fuel Cell. Environ. Sci. Technol. 38, 2281-2285.

Logan, B.E. 2004. Extracting Hydrogen and Energy from Renewable Resources (Feature article). Environ. Sci. Technol., 38(9):160A-167A.

Liu, H. and B.E. Logan.  2004. Electricity Generation Using an Air-Cathode Single Chamber Microbial Fuel Cell in the Presence and Absence of a Proton Exchange Membrane. Environ. Sci. Technol., 38(14):4040-4046.

Oh, S.-E., B. Min, and B.E. Logan. 2004. Cathode Performance as a Factor in Electricity Generation in Microbial Fuel Cells. Environ. Sci. Technol. 38(18):4900-4904.

Min, B. and B.E. Logan. 2004. Continuous Electricity Generation from Domestic Wastewater and Organic Substrates in a Flat Plate Microbial Fuel Cell. Environ. Sci. Technol. 38(21), 5809-5814.

Oh, S.-E., P. Iyer, M.A. Bruns, and B.E. Logan. 2004. Biological Hydrogen Production Using a Membrane Bioreactor. Biotechnol. Bioengin. 87(1)119-127.

Iyer, P., M.A. Bruns, H. Zhang, S. Van Ginkel, and B.E. Logan. 2004. H2-Producing bacterial communities from a heat-treated soil inoculum. Appl. Microbiol. Biotechnol. 66:166-173.

Zhang, J.J., X.-Y. Li, and B.E. Logan. 2004. Physical and Hydrodynamic Properties of Flocs Produced During Biological Hydrogen Production. Biotechnol. Bioengin.  88(7):854-860.

Xu, J., Trimble, J.J., Steinberg, L. and Logan, B.E. 2004. Chlorate and nitrate reduction pathways are separately induced in the perchlorate-respiring bacterium Dechlorosoma sp. KJ and the chlorate-respiring bacterium Pseudomonas sp. PDA. Wat Res., 38(3):673-680.

Song, Y. and B.E. Logan. 2004. Effect of O2 exposure on perchlorate reduction by Dechlorosoma sp. KJ. Wat. Res., 38(6):1626-1632.

Min, B., P.J. Evans, A. Chu, and B.E. Logan. 2004. Perchlorate removal in sand and plastic media bioreactors. Wat. Res., 38(1):47-60.

Min, B., D. Kohler, and B.E. Logan. 2004. A Simplified Headspace Biochemical Oxygen Demand Test Protocol Based on Oxygen Measurements Using a Fiber Optic Probe. Water Environ. Res., 76(1):39-47.

Song, Y. and B.E. Logan. 2004. Inhibition of aerobic respiration and dissimilatory perchlorate reduction using cyanide. FEMS Microbiol. Lett. 239:229-234.

Li, X. and B.E. Logan. 2004. Analysis of Bacterial Adhesion Using a Gradient Force Analysis Method and Colloid Probe Atomic Force Microscopy. Langmuir, 20(20):8817-8822

Salerno, M.B., B.E. Logan, and D. Velegol. 2004. Importance of Molecular Details in Predicting Bacterial Adhesion to Hydrophobic Surfaces. Langmuir, 20:10625-10629.

Li, B. and B.E. Logan. 2004. Bacterial adhesion to glass and metal-oxide surfaces. Colloids Surf. B Biointerf.  36:81-90.

Velegol. S.B. and B.E. Logan. 2004. Correction to: “Contributions of Bacterial Surface Polymers, Electrostatics and Cell Elasticity to the Shape of AFM Force Curves”. Langmuir, 20:3820.

2003

Oh, S.-E., S. Van Ginkel, and B.E. Logan. 2003. The Relative Effectiveness of pH Control and Heat Treatment for Enhancing Biohydrogen Gas Production. Environ. Sci. Technol., 37(22):5186-5190.

Velegol, S.B., S. Pardi, X. Li, D. Velegol, and B.E. Logan. 2003.  AFM Imaging Artifacts due to Bacterial Cell Height and AFM Tip Geometry.  Langmuir. 19, 851-857.

Burks, G.A. S.B. Velegol, E. Paramanova, B.E. Lindenmuth, J.D. Feick, and B.E. Logan. 2003. Macroscopic and Nanoscale Measurements of the Adhesion of Bacteria with Varying Outer Layer Surface Composition. Langmuir, 19(6):2366-2371.

Xu, J., Y. Song, B. Min, L. Steinberg, and B.E. Logan. 2003. Microbial Degradation of Perchlorate: Principles and Applications. Environ. Engin. Sci, 20(5): 405-422.

Xu, J. and B.E. Logan. 2003. Measurement of chlorite dismutase activities in perchlorate respiring bacteria. J. Micro. Methods 54:239-247.

2002

Logan, B.E., S.-E. Oh, I.S. Kim, and S. Van Ginkel. 2002. Biological Hydrogen Production Measured in Batch Anaerobic Respirometers.  Environ. Sci. Technol. 36(11):2530-2535.

Shellenberger, K. and B.E. Logan 2002. Effect of Molecular Scale Roughness of Glass Beads on Colloidal and Bacterial Deposition. Environ. Sci. Technol. 36(2):184-189.

Logan, B.E. and J. Wu. 2002. Enhanced Toluene Degradation Under Chlorate-Reducing Conditions by Bioaugmentation of Sand Columns with Chlorate- and Toluene-Degrading Enrichments. Bioremed. J., 6(2):87-95.

Velegol. S.B. and B.E. Logan. 2002. Contributions of Bacterial Surface Polymers, Electrostatics and Cell Elasticity to the Shape of AFM Force Curves. Langmuir, 18:3454-3458. 

Zhang H., M.A. Bruns, and B.E. Logan. 2002. Perchlorate reduction by a novel chemolithoautotrophic hydrogen-oxidizing bacterium. Environ. Microbiol., 4(10):570-576.

Li, X-Y. and B.E. Logan. 2002. Reply to the comment by L. Gmachowski on "Permeability of fractal aggregates". Wat. Res. 36(13):3415-3416

Logan, B.E. and D. LaPoint. 2002. Treatment of perchlorate- and nitrate-contaminated groundwater in an autotrophic, gas phase, packed-bed bioreactor. Wat. Res. 36(14):3647-3653.

2001

Logan, B.E. 2001. Assessing the Outlook for Perchlorate Remediation. Environ. Sci. Technol. 35(23): 482A-487A. [Color, 13 mB]

Logan, B.E., J. Wu and R.F. Unz. 2001. Biological Perchlorate Reduction in High-Salinity Solutions.  Wat. Res. 35(12):3034-3038.

Logan, B.E., H. Zhang, P. Mulvaney, M.G. Milner, I.M. Head, and R.F. Unz. 2001. Kinetics of perchlorate- and chlorate- respiring bacteria.  Appl. Environ. Microbiol.  67(6): 2499-2506.

Logan, B.E. 2001. Discussion of “Oxygen Mass-Transfer Coefficients for Different Sample Containers Used in the Headspace Biochemical Oxygen Demand Test.” Water Environ. Res. 73(4):508.

Wu, J., R. Unz, H. Zhang and B.E. Logan. 2001. Persistence of Perchlorate and the Relative Numbers of Perchlorate- and Chlorate-Respiring Microorganisms in Natural Waters, Soils and Wastewater. Bioremed. J. 5(2):119-130.

Logan, B.E. 2001. Analysis of Overall Perchlorate Removal Rates in Packed-Bed Bioreactors. J. Environ. Engng. 127(5):469-471.

Li, X-Y. and B.E. Logan. 2001. Permeability of Fractal Aggregates. Wat. Res. 35(14):3373-3380.

Kim, K. and B.E. Logan. 2001. Microbial Reduction of Perchlorate in Pure and Mixed Culture Packed-Bed Bioreactors. Wat. Res. 35(13): 3071-3076.

Logan, B.E. and D. Kohler. 2001. Oxygen Mass Transfer Coefficients for Different Sample Containers Used in the Headspace Biochemical Oxygen Demand Test. Water Environ. Res. 73(1):58-62.

2000

Miller, J.P. and B.E. Logan. 2000.  Sustained Perchlorate Degradation in an Autotrophic, Gas-Phase, Packed-Bed Bioreactor. Environ. Sci. Technol. 34(14):3018-3022.

Camesano, T.A. and B.E. Logan. 2000. Probing Bacterial Electrosteric Interactions Using Atomic Force Microscopy. Environ. Sci. Technol. 34(16):3354-3362. 

Rogers, B. and B.E. Logan. 2000. Bacterial Transport in NAPL-Contaminated Porous Media. J. Environ. Engrg. 126(7): 657-666. 

Camesano, T.A. M.J. Natan, and B.E. Logan. 2000. Observation of Changes in Bacterial Cell Morphology Using Tapping Mode Atomic Force Microscopy. Langmuir 16(10):4563-4572. 

Unice, K.M., and B.E. Logan. 2000. Insignificant Role of Hydrodynamic Dispersion on Bacterial Transport. J. Environ. Engin. 126(6): 491-500. 

Kim, K. and B.E. Logan. 2000. Fixed-Bed Bioreactor Treating Perchlorate-Contaminated Waters. Environ. Engin. & Sci. 17(5):257-265.

Logan, B.E. and G. Wagenseller. 2000. Molecular Size Distributions of Dissolved Organic Matter in Wastewater Transformed by Treatment in a Full-Scale Trickling Filter. Water Environ. Res.  72(3):277-281. 

1999

Camesano, T.A., K.M. Unice and B.E. Logan. 1999. Blocking and ripening of colloids in porous media and their implications for bacterial transport. Colloids Surf. A. Physicochem. Engin. Aspects. 160(3):291-307. 

Serra, T. and B.E. Logan. 1999. Collision Frequencies of Fractal Bacterial Aggregates with Small Particles in a Sheared Fluid.  Environ. Sci. Technol.  33(13):2247-2251. 

Fang, Y. and B.E. Logan. 1999. Bacterial Transport in Gas-Sparged Porous Medium. J. Environ. Engng. 125(7):668-673. 

Logan, B.E., T.A. Camesano, A.A. DeSantis, K.M. Unice, and J.C. Baygents. 1999. Comment on "A Method for Calculating Bacterial Deposition Coefficients Using the Fraction of Bacteria Recovered from Laboratory Columns" by Bolster et al. Environ. Sci. Technol. 33(8):1316-1317. 

Li, Q. and B.E. Logan. 1999. Enhancing Bacterial Transport for Bioaugmentation of Aquifers Using Low Ionic Strength Solutions and Surfactants. Wat. Res., 33(4):1090-1100. 

Jewett, D.G., B.E. Logan, R.G. Arnold, and R.C. Bales. 1999. Transport of Pseudomonas fluorescens strain P17 through quartz sand columns as a function of water content. J. Contam. Hydrol.36(1-2):73-89. 

1998

Logan, B.E., and B.E. Rittmann. 1998. Finding Solutions for Tough Environmental Problems. Environ. Sci. Technol., 32(21):502A-505A. 

Grossart, H.-P., M. Simon, and B.E. Logan. 1998. Formation of macroscopic organic aggregates (lake snow) in a large lake: The significance of transparent exopolymer particles, plankton and zooplankton. Limnol. Oceanogr. 42(8):1651-1672. 

Camesano, T.A. and B.E. Logan. 1998. Influence of Fluid Velocity and Cell Concentration on the Transport of Motile and Nonmotile Bacteria in Porous Media. Environ. Sci. Technol., 32(11):1699-1708. 

Logan, B.E. 1998. A Review of Chlorate- and Perchlorate-Respiring Microorganisms. Bioremediation J. 2(2):69-79.

Logan, B.E., A.R. Bliven, S.R. Olsen, and R. Patnaik. 1998. Growth Kinetics of Mixed Cultures under Chlorate-Reducing Conditions. J. Env. Engrg., 124(10):1008-1011. 

Li, X. U. Passow, and B.E. Logan. 1998. Fractal dimensions of small (15 to 200 µm) particles in Eastern Pacific coastal waters. Deep-Sea Res. I, 45(1):115-131. 

Confer, D.R. and B.E. Logan. 1998. A Conceptual Model Describing Macromolecule Degradation by Suspended Cultures and Biofilms. Water Sci. Technol. 37 (4-5):231-234. 

Confer, D.R., and B.E. Logan. 1998. Location of Protein and Polysaccharide Hydrolytic Activity in Suspended and Biofilm Wastewater Cultures. Wat. Res., 32(1):31-38. 

1997

Jackson, G.A., R. Maffione, D.K. Costello, A.L. Alldredge, B.E. Logan, and H.G. Dam. 1997. Particle size spectra between 1 µm and 1 cm at Monterey Bay determined using multiple instruments. Deep-Sea Res.I, 44(11):1739-1767.

Logan, B.E. 1997. Reply to comment by Iranpour and Shao on "A gas chromatographic based headspace biochemical oxygen demand test." Water Env. Res., 69(6):1179-1180.

Confer, D.R. and B.E. Logan. 1997. Molecular Weight Distribution of Hydrolysis Products during Biodegradation of Model Macromolecules in Suspended and Biofilm Cultures I: Bovine Serum Albumin. Wat. Res., 31(9):2127-2136.

Confer, D.R. and B.E. Logan. 1997. Molecular Weight Distribution of Hydrolysis Products during Biodegradation of Model Macromolecules in Suspended and Biofilm Cultures II: Dextran and Dextrin. Wat. Res., 31(9):2127-2145.

Logan, B.E., D.G. Jewett, R.G. Arnold, E. Bouwer and C.R. O'Melia. 1997. Reply to Comment by S. Qi on "Clarification of clean-bed filtration models." J. Environ. Eng., 123(7):730-731.

Li, X. and B.E. Logan. 1997. Collision Frequencies of Fractal Aggregates with Small Particles by Differential Sedimentation. Environ. Sci. Technol., 31(4):1229-1236. 

Li, X. and B.E. Logan. 1997. Collision Frequencies between Fractal Aggregates and Small Particles in a Turbulently Sheared Fluid. Environ. Sci. Technol., 31(4):1237-1242. 

Logan, B.E. and R. Patnaik. 1997. A gas chromatographic-based headspace biochemical oxygen demand test. Water Env. Res., 69(2):206-214.

1996

Johnson, C.P., X. Li and B.E. Logan. 1996. Settling Velocities of Fractal Aggregates. Environ. Sci. Technol., 30(6):1911-1919. 

Aiken, B.S. and B.E. Logan. 1996. Degradation of pentachlorophenol by the white rot fungus Phanerochaete chrysosporium grown in ammonium lignosulphonate media. Biodegradation, 7(3):175-182.

Martin, M.J., B.E. Logan, W.P. Johnson, D.J. Jewett, and R.G. Arnold. 1996.Scaling Bacterial Filtration Rates in Different Sized Porous Media. J. Environ. Engng., 122(5):407-415.

Johnson, W.P. and B.E. Logan. 1996. Enhanced Transport of Bacteria in Porous Media by Sediment-Phase and Aqueous-Phase Natural Organic Matter. Wat. Res., 30(4):923-931.

Logan, B.E. 1996. Discussion of "Oxygen utilization of trickling filter biofilms" by Hinton and Stensel. J. Environ. Engng., 122(4):333-336.

Jiang, Q. and B.E. Logan. 1996. Fractal dimensions of aggregates from shear devices. J. AWWA. 88(2):100-113.

Logan, B.E. 1996. Guest Editorial: "Environmental Engineering Education." J. Environ. Engng., 122(3).

Johnson, W.P., M.J. Martin, M.J. Gross, and B.E. Logan. 1996. Facilitation of bacterial transport through porous media by changes in solution and surface properties. Colloids Surf. A 107:263-271.

1995

Gross, M.J. and B.E. Logan. 1995. Influence of Different Chemical Treatments on Transport of Alcaligenes paradoxus in Porous Media. Appl. Environ. Microbiol., 61(5):1750-1756. 

Confer, D.R., B.E. Logan, B.S. Aiken, and D.L. Kirchman. 1995. Measurement of dissolved free and combined amino acids in unconcentrated wastewaters using high performance liquid chromatography. Wat. Environ. Res. 67(1)118-125.

Logan, B.E. and J.R. Kilps. 1995. Fractal Dimensions of Aggregates Formed in Different Fluid Mechanical Environments. Water Res. 29(2):443-453.

Alleman, B.C., B.E. Logan, G.L. Amy and R.L. Gilbertson. 1995. Degradation of Pentachlorophenol by Fixed Films of White Rot Fungi in Rotating Tube Bioreactors. Wat. Res. 29(1):61-67.

Logan, B.E. 1995. Review of "Chemical fate and transport in the environment" by H.F. Hemond and E.J. Hester. Limnol. Oceanogr., 40(8):1534-1535.

Logan, B.E., D.G. Jewett, R.G. Arnold, E. Bouwer and C.R. O'Melia. 1995. Clarification of Clean-Bed Filtration Models. J. Environ. Eng. 121(12): 869-873.

Johnson, W.P., K.A. Blue, B.E. Logan and R.G. Arnold. 1995. Modeling bacterial detachment during transport through porous media as a resident-time-dependent process. Wat. Resour. Res., 31(11):2649-2658.

Logan, B.E. 1995. Comment on "Investigation of a Sequential Filtration Technique for Particle Fractionation" by Droppo et al, Environ. Sci. Technol., 29(8):2166-2167.

Jackson, G.A., B.E. Logan, A.L. Alldredge, and H. Dam. 1995. Combining particle size spectra from a mesocosm experiment measured using photographic and aperture impedance (Coulter and Elzone) techniques. Deep-Sea Res. II, 42(1):139-157.

Logan, B.E., U. Passow, A.L. Alldredge, H.-P. Grossart, and M. Simon. 1995. Rapid formation and sedimentation of large aggregates is predictable from coagulation rates (half-lives) of transparent exopolymer particles (TEP). Deep-Sea Res. II, 42(1):203-214.

Li, X. and B.E. Logan. 1995. Size distributions and fractal properties of particles during a simulated phytoplankton bloom in a mesocosm. Deep-Sea Res. II, 42(1):125-138.

Logan, B.E. 1995. Reply to Discussion of S.W. Hinton and H.D. Stensel on "Oxygen transfer in trickling filters". J. Environ. Engin., 121(5):423-426.

Jewett, D.G., T.A. Hilbert, B.E. Logan, R.G. Arnold, R.C. Bales. 1995. Bacterial Transport in Columns and Filters: Influence of Ionic strength and pH on Collision Efficiency. Wat. Res., 29(7):1673-1680.

Gross, M.J., O. Albinger, D.G. Jewett, B.E. Logan, R.C. Bales, and R.G. Arnold. 1995. Measurement of Bacterial Collision Efficiencies in Porous Media. Wat. Res., 29(4):1151-1158.

Logan, B.E. 1995. Reply to the Discussion of A.B. Gupta and A.S. Agnihotri on "The HBOD test: a new method for determining biochemical oxygen demand." Water Environ. Res., 67(3):377-379.

1994

Logan, B.E., H.-P. Grossart, and M. Simon. 1994. Direct observation of phytoplankton, TEP and aggregates on polycarbonate filters using brightfield microscopy. J Plankton Res., 16(12):1811-1815. 

Kilps, J.R., B.E. Logan, and A.L. Alldredge. 1994. Fractal dimensions of marine snow determined from image analysis of in situ photographs. Deep-Sea Res. 41(8):1159-1169.

Haldane, G.M., and B.E. Logan. 1994. Molecular Size Distributions of a Macromolecular Polysaccharide (Dextran) During its Biodegradation in Batch and Continuous Cultures. Wat. Res. 28(9):1873-1878.

Logan, B.E., B.C. Alleman, G.L. Amy and R.L. Gilbertson 1994. Adsorption and Removal of Pentachlorophenol by White Rot Fungi in Batch Culture. Wat. Res. 28(7):1533-1538.

Albinger, O., B.K. Biesemeyer, R.G. Arnold and B.E. Logan. 1994. Effect of bacterial heterogeneity on adhesion to uniform collectors by monoclonal populations. FEMS Microbiol. Lett., 124:321-326.

Logan, B.E., U. Passow and A.L. Alldredge. 1994. Variable retention of diatoms on screens during size separations. Limnol. Oceanogr. 39(2):390-395.

Passow, U., A.L. Alldredge, and B.E. Logan. 1994. The role of particulate carbohydrate exudates in the flocculation of diatom blooms. Deep-Sea Res. 41(2):335-357.

1993

Logan, B.E. and R.C. Fleury. 1993. Multiphasic kinetics can be an artifact of the assumption of saturable kinetics for microorganisms. Mar. Ecol. Prog. Ser. 102:115-124. 

Logan, B.E. and G.A. Wagenseller. 1993. The HBOD test: a new method for determining biochemical oxygen demand. Water Environ. Res. 65(7):862-868.

Logan, B.E. 1993. Oxygen Transfer in Trickling Filters. J. Environ. Engin. 119(6):1059-1076.

Alleman, B.C., B.E. Logan, and R.L. Gilbertson. 1993. A rapid method to screen fungi for resistance to toxic chemicals. Biodegradation. 4:125-129.

Alldredge, A.L., Passow, U, and B.E. Logan. 1993. The abundance and significance of a class of large, transparent organic particles in the ocean. Deep-Sea Res. 40(6):1131-1140.

Logan, B.E. 1993. Theoretical analysis of size distributions determined with screens and filters. Limnol. Oceanogr. 38(2):372-381.

Logan, B.E., T.A. Hilbert, R.G. Arnold. 1993. Removal of Bacteria in Laboratory Filters: Models and Experiments. Wat. Res. 27(6):955-962.

Jewett, D.G., R.C. Bales, B.E. Logan, and R.G. Arnold. 1993. Comment on "Application of Clean-Bed Filtration Theory to Bacterial Deposition in Porous Media" Environ. Sci. Technol. 27(5):984-985.

1992

Alleman, B.C., B.E. Logan, and R.L. Gilbertson. 1992. Toxicity of Pentachlorophenol to Six Species of White Rot Fungi as a Function of Chemical Dose. Appl. Environ. Microbiol., 58(12):4048-4050.

1991

Jiang, Q. and B.E. Logan. 1991. Fractal Dimensions of Aggregates Determined from Steady-State Size Distributions. Environ. Sci. Technol., 25(12), 2031-2038. 

Logan, B.E. and D.K. Kirchman. 1991. Uptake of dissolved organics by marine bacteria as a function of fluid motion. Mar. Biol., 111(1):175-181.

Confer, D.R. and B.E. Logan. 1991. Increased Bacterial Uptake of Macromolecular Substrates with Fluid Shear. Appl. Environ. Microbiol., 57(11)3093-3100.

Logan, B.E. and D.B. Wilkinson. 1991. Fractal Dimensions and Porosities of Zoogloea ramigera and Saccharomyces cerevisae Aggregates. Biotechnol. Bioengin., 38(4):389-396.

1990

Logan, B.E. and Q. Jiang. 1990. Molecular Size Distributions of Dissolved Organic Matter. J. Envir. Engin. 116(6):1046-1062. 

Logan, B.E. and D.S. Parker. 1990. Discussion of: "Nitrification performance of a pilot-scale trickling filter" by H.A. Gullicks and J.L. Cleasby Res. J. Water Pollut. Control Fed., 62(7):933-936.

Logan, B.E. and J.W. Dettmer. 1990. Increased Mass Transfer to Microorganisms with Fluid Motion. Biotechnol. Bioengin., 35(11):1135 -1144.

Logan, B.E. and D.B. Wilkinson. 1990. Fractal geometry of marine snow and other biological aggregates. Limnol. Oceanogr., 35(1):130-136.

1989

Logan, B.E. and A.L. Alldredge. 1989. Potential for increased nutrient uptake by flocculating diatoms. Mar. Biol. 101(4):443-450. 

Logan, B.E., S.W. Hermanowicz and D.S. Parker. 1989. Reply to Discussion of S.W. Hinton and H.D. Stensel on "A fundamental model for trickling filter process design". J. Water Pollut. Control Fed., 61(3):363-366.

Logan, B.E., A. Steele, and R.G. Arnold. 1989. Computer Simulation of DDT Distribution in Palos Verdes Shelf Sediments. J. Env. Eng. Div., ASCE, 115(1):221-238.

1988

Logan, B.E. and J.R. Hunt. 1988. Bioflocculation as a Microbial Response to Substrate Limitations. Biotechnol. Bioeng., 31:91-101.

1987

Logan, B.E., S.W. Hermanowicz and D.S. Parker. 1987. A fundamental model for trickling filter process design. J. Water Pollut. Control Fed., 59(12):1029-1042. 

Logan, B.E., S.W. Hermanowicz and D.S. Parker. 1987. Engineering implications of a new trickling filter model. J. Water Pollut. Control Fed., 59(12):1017-1028.

Logan, B.E. and J.R. Hunt. 1987. Advantages of microbial growth in permeable aggregates in marine systems. Limnol. Oceanogr., 32(5):1034-1048.

Logan, B.E. and S.W. Hermanowicz. 1987. Application of the Penetration Theory to Oxygen Transfer to Biofilms. Biotechnol. Bioeng., 29(6):762-766.

1980

Kleinstreuer, C. and B.E. Logan. 1980. A Mathematical Model Simulating Fish Losses Near Power Plants Using Rotenone Data. Water Res., 14(3):1047-1054. 

Kleinstreuer, C. and B.E. Logan. 1980. Generalized computer simulation mode for the impact assessment of industrial water use on fish populations. Prog. Water Tech., 13:363-390.