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Liu X, Ueki T, Gao H, Woodard TL, Nevin KP, Fu T, Fu S, Sun L, Lovley DR, Yao J.\'a0 2022.\'a0\'a0Microbial biofilms for electricity generation from water evaporation and power to wearables.. Nat Commun. 13(1):4369.\par \par Holmes DE, Nevin KP, Snoeyenbos-West OL, Woodard TL, Strickland JN, Lovley DR.\'a0 2015.\'a0\'a0Protozoan grazing reduces the current output of microbial fuel cells.. Bioresour Technol. 193:8-14.\par \par Malvankar NS, Lovley DR.\'a0 2014.\'a0\'a0Microbial nanowires for bioenergy applications.. Curr Opin Biotechnol. 27:88-95.\par \par Zhang T, Bain TS, Barlett MA, Dar SA, Snoeyenbos-West OL, Nevin KP, Lovley DR.\'a0 2014.\'a0\'a0Sulfur oxidation to sulfate coupled with electron transfer to electrodes by Desulfuromonas strain TZ1.. Microbiology (Reading). 160(Pt 1):123-129.\par \par Vargas M, Malvankar NS, Tremblay P-L, Leang C, Smith JA, Patel P, Snoeyenbos-West O, Nevin KP, Lovley DR.\'a0 2013.\'a0\'a0Aromatic amino acids required for pili conductivity and long-range extracellular electron transport in Geobacter sulfurreducens.. mBio. 4(2):e00105-13.\par \par Lovley DR, Nevin KP.\'a0 2013.\'a0\'a0Electrobiocommodities: powering microbial production of fuels and commodity chemicals from carbon dioxide with electricity.. Curr Opin Biotechnol. 24(3):385-90.\par \par Nie H, Zhang T, Cui M, Lu H, Lovley DR, Russell TP.\'a0 2013.\'a0\'a0Improved cathode for high efficient microbial-catalyzed reduction in microbial electrosynthesis cells.. Phys Chem Chem Phys. 15(34):14290-4.\par \par Butler JE, Young ND, Aklujkar M, Lovley DR.\'a0 2012.\'a0\'a0Comparative genomic analysis of Geobacter sulfurreducens KN400, a strain with enhanced capacity for extracellular electron transfer and electricity production.. BMC Genomics. 13:471.\par \par Franks AE, Glaven RH, Lovley DR.\'a0 2012.\'a0\'a0Real-time spatial gene expression analysis within current-producing biofilms.. ChemSusChem. 5(6):1092-8.\par \par Nevin KP, Woodard TL, Franks AE, Summers ZM, Lovley DR.\'a0 2010.\'a0\'a0Microbial electrosynthesis: feeding microbes electricity to convert carbon dioxide and water to multicarbon extracellular organic compounds.. MBio. 1(2)\par \par Franks AE, Nevin KP, Glaven RH, Lovley DR.\'a0 2010.\'a0\'a0Microtoming coupled to microarray analysis to evaluate the spatial metabolic status of Geobacter sulfurreducens biofilms.. ISME J. 4(4):509-19.\par \par Inoue K, Qian X, Morgado L, Kim B-C, Mester T, Izallalen M, Salgueiro CA, Lovley DR.\'a0 2010.\'a0\'a0Purification and characterization of OmcZ, an outer-surface, octaheme c-type cytochrome essential for optimal current production by Geobacter sulfurreducens.. Appl Environ Microbiol. 76(12):3999-4007.\par \par Nevin KP, Kim B-C, Glaven RH, Johnson JP, Woodard TL, Meth\'e9 BA, Didonato RJ, Covalla SF, Franks AE, Liu A et al..\'a0 2009.\'a0\'a0Anode biofilm transcriptomics reveals outer surface components essential for high density current production in Geobacter sulfurreducens fuel cells.. PLoS One. 4(5):e5628.\par \par Lovley DR.\'a0 2009.\'a0\'a0Future shock from the microbe electric.. Microb Biotechnol. 2(2):139-41.\par \par Yi H, Nevin KP, Kim B-C, Franks AE, Klimes A, Tender LM, Lovley DR.\'a0 2009.\'a0\'a0Selection of a variant of Geobacter sulfurreducens with enhanced capacity for current production in microbial fuel cells.. Biosens Bioelectron. 24(12):3498-503.\par \par Lanthier M, Gregory KB, Lovley DR.\'a0 2008.\'a0\'a0Growth with high planktonic biomass in Shewanella oneidensis fuel cells.. FEMS Microbiol Lett. 278(1):29-35.\par \par Lovley DR.\'a0 2008.\'a0\'a0The microbe electric: conversion of organic matter to electricity.. Curr Opin Biotechnol. 19(6):564-71.\par \par Reguera G, Nevin KP, Nicoll JS, Covalla SF, Woodard TL, Lovley DR.\'a0 2006.\'a0\'a0Biofilm and nanowire production leads to increased current in Geobacter sulfurreducens fuel cells.. Appl Environ Microbiol. 72(11):7345-8.\par \par Lovley DR.\'a0 2006.\'a0\'a0Bug juice: harvesting electricity with microorganisms.. Nat Rev Microbiol. 4(7):497-508.\par \par Lovley DR.\'a0 2006.\'a0\'a0Microbial fuel cells: novel microbial physiologies and engineering approaches.. Curr Opin Biotechnol. 17(3):327-32.\par \par Bond DR, Lovley DR.\'a0 2005.\'a0\'a0Evidence for involvement of an electron shuttle in electricity generation by Geothrix fermentans.. Appl Environ Microbiol. 71(4):2186-9.\par \par Holmes DE, Bond DR, O'Neil RA, Reimers CE, Tender LR, Lovley DR.\'a0 2004.\'a0\'a0Microbial communities associated with electrodes harvesting electricity from a variety of aquatic sediments.. Microb Ecol. 48(2):178-90.\par \par Holmes DE, Nicoll JS, Bond DR, Lovley DR.\'a0 2004.\'a0\'a0Potential role of a novel psychrotolerant member of the family Geobacteraceae, Geopsychrobacter electrodiphilus gen. nov., sp. nov., in electricity production by a marine sediment fuel cell.. Appl Environ Microbiol. 70(10):6023-30.\par \par Chaudhuri SK, Lovley DR.\'a0 2003.\'a0\'a0Electricity generation by direct oxidation of glucose in mediatorless microbial fuel cells.. Nat Biotechnol. 21(10):1229-32.\par \par Tender LM, Reimers CE, Stecher HA, Holmes DE, Bond DR, Lowy DA, Pilobello K, Fertig SJ, Lovley DR.\'a0 2002.\'a0\'a0Harnessing microbially generated power on the seafloor.. Nat Biotechnol. 20(8):821-5.\par \par }