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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 Fu T, Liu X, Gao H, Ward JE, Liu X, Yin B, Wang Z, Zhuo Y, Walker DJF, J Yang J et al..\'a0 2020.\'a0\'a0Bioinspired bio-voltage memristors.. Nat Commun. 11(1):1861.\par \par Walker DJF, Martz E, Holmes DE, Zhou Z, Nonnenmann SS, Lovley DR.\'a0 2019.\'a0\'a0The Archaellum of Methanospirillum hungatei Is Electrically Conductive.. mBio. 10(2)\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 Liu X, Tremblay P-L, Malvankar NS, Nevin KP, Lovley DR, Vargas M.\'a0 2014.\'a0\'a0A Geobacter sulfurreducens strain expressing pseudomonas aeruginosa type IV pili localizes OmcS on pili but is deficient in Fe(III) oxide reduction and current production.. Appl Environ Microbiol. 80(3):1219-24.\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 Rotaru A-E, Shrestha PM, Liu F, Ueki T, Nevin K, Summers ZM, Lovley DR.\'a0 2012.\'a0\'a0Interspecies electron transfer via hydrogen and formate rather than direct electrical connections in cocultures of Pelobacter carbinolicus and Geobacter sulfurreducens.. Appl Environ Microbiol. 78(21):7645-51.\par \par Lovley DR, Nevin KP.\'a0 2011.\'a0\'a0A shift in the current: new applications and concepts for microbe-electrode electron exchange.. Curr Opin Biotechnol. 22(3):441-8.\par \par Nagarajan H, Butler JE, Klimes A, Qiu Y, Zengler K, Ward J, Young ND, Meth\'e9 BA, Palsson B\'d8, Lovley DR et al..\'a0 2010.\'a0\'a0De Novo assembly of the complete genome of an enhanced electricity-producing variant of Geobacter sulfurreducens using only short reads.. PLoS One. 5(6):e10922.\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 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 Lovley DR.\'a0 2009.\'a0\'a0Future shock from the microbe electric.. Microb Biotechnol. 2(2):139-41.\par \par Strycharz SM, Woodard TL, Johnson JP, Nevin KP, Sanford RA, L\'f6ffler FE, Lovley DR.\'a0 2008.\'a0\'a0Graphite electrode as a sole electron donor for reductive dechlorination of tetrachlorethene by Geobacter lovleyi.. Appl Environ Microbiol. 74(19):5943-7.\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 Kim B-C, Postier BL, Didonato RJ, Chaudhuri SK, Nevin KP, Lovley DR.\'a0 2008.\'a0\'a0Insights into genes involved in electricity generation in Geobacter sulfurreducens via whole genome microarray analysis of the OmcF-deficient mutant.. Bioelectrochemistry. 73(1):70-5.\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 Nevin KP, Richter H, Covalla SF, Johnson JP, Woodard TL, Orloff AL, Jia H, Zhang M, Lovley DR.\'a0 2008.\'a0\'a0Power output and columbic efficiencies from biofilms of Geobacter sulfurreducens comparable to mixed community microbial fuel cells.. Environ Microbiol. 10(10):2505-14.\par \par Richter H, Lanthier M, Nevin KP, Lovley DR.\'a0 2007.\'a0\'a0Lack of electricity production by Pelobacter carbinolicus indicates that the capacity for Fe(III) oxide reduction does not necessarily confer electron transfer ability to fuel cell anodes.. Appl Environ Microbiol. 73(16):5347-53.\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 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 Bond DR, Lovley DR.\'a0 2003.\'a0\'a0Electricity production by Geobacter sulfurreducens attached to electrodes.. Appl Environ Microbiol. 69(3):1548-55.\par \par Lovley DR.\'a0 2002.\'a0\'a0Analysis of the genetic potential and gene expression of microbial communities involved in the in situ bioremediation of uranium and harvesting electrical energy from organic matter.. OMICS. 6(4):331-9.\par \par Bond DR, Holmes DE, Tender LM, Lovley DR.\'a0 2002.\'a0\'a0Electrode-reducing microorganisms that harvest energy from marine sediments.. Science. 295(5554):483-5.\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 }