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Lovley DR, Holmes DE.\'a0 2022.\'a0\'a0Electromicrobiology: the ecophysiology of phylogenetically diverse electroactive microorganisms.. Nat Rev Microbiol. 20(1):5-19.\par \par Zhou J, Holmes DE, Tang H-Y, Lovley DR.\'a0 2021.\'a0\'a0Correlation of Key Physiological Properties of  Isolates with Environment of Origin.. Appl Environ Microbiol. 87(13):e0073121.\par \par Liang D, Liu X, Woodard TL, Holmes DE, Smith JA, Nevin KP, Feng Y, Lovley DR.\'a0 2021.\'a0\'a0Extracellular Electron Exchange Capabilities of  and .. Environ Sci Technol. 55(23):16195-16203.\par \par Holmes DE, Zhou J, Ueki T, Woodard T, Lovley DR.\'a0 2021.\'a0\'a0Mechanisms for Electron Uptake by Methanosarcina acetivorans during Direct Interspecies Electron Transfer.. mBio. 12(5):e0234421.\par \par Lovley DR, Holmes DE.\'a0 2020.\'a0\'a0Protein Nanowires: the Electrification of the Microbial World and Maybe Our Own.. J Bacteriol. 202(20)\par \par Walker DJF, Nevin KP, Holmes DE, Rotaru A-E, Ward JE, Woodard TL, Zhu J, Ueki T, Nonnenmann SS, McInerney MJ et al..\'a0 2020.\'a0\'a0Syntrophus conductive pili demonstrate that common hydrogen-donating syntrophs can have a direct electron transfer option.. ISME J. 14(3):837-846.\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 Tang H-Y, Holmes DE, Ueki T, Palacios PA, Lovley DR.\'a0 2019.\'a0\'a0Iron Corrosion via Direct Metal-Microbe Electron Transfer.. mBio. 10(3)\par \par Holmes DE, Ueki T, Tang H-Y, Zhou J, Smith JA, Chaput G, Lovley DR.\'a0 2019.\'a0\'a0A Membrane-Bound Cytochrome Enables  To Conserve Energy from Extracellular Electron Transfer.. mBio. 10(4)\par \par Holmes DE, Shrestha PM, Walker DJF, Dang Y, Nevin KP, Woodard TL, Lovley DR.\'a0 2017.\'a0\'a0Metatranscriptomic Evidence for Direct Interspecies Electron Transfer between Geobacter and Methanothrix Species in Methanogenic Rice Paddy Soils.. Appl Environ Microbiol. 83(9)\par \par Holmes DE, Dang Y, Walker DJF, Lovley DR.\'a0 2016.\'a0\'a0The electrically conductive pili of pecies are a recently evolved feature for extracellular electron transfer.. Microb Genom. 2(8):e000072.\par \par Zhao Z, Zhang Y, Holmes DE, Dang Y, Woodard TL, Nevin KP, Lovley DR.\'a0 2016.\'a0\'a0Potential enhancement of direct interspecies electron transfer for syntrophic metabolism of propionate and butyrate with biochar in up-flow anaerobic sludge blanket reactors.. Bioresour Technol. 209:148-56.\par \par Holmes DE, Bond DR, Lovley DR.\'a0 2004.\'a0\'a0Electron transfer by Desulfobulbus propionicus to Fe(III) and graphite electrodes.. Appl Environ Microbiol. 70(2):1234-7.\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 Kashefi K, Holmes DE, Baross JA, Lovley DR.\'a0 2003.\'a0\'a0Thermophily in the Geobacteraceae: Geothermobacter ehrlichii gen. nov., sp. nov., a novel thermophilic member of the Geobacteraceae from the "Bag City" hydrothermal vent.. Appl Environ Microbiol. 69(5):2985-93.\par \par Kashefi K, Tor JM, Holmes DE, Gaw Van Praagh CV, Reysenbach A-L, Lovley DR.\'a0 2002.\'a0\'a0Geoglobus ahangari gen. nov., sp. nov., a novel hyperthermophilic archaeon capable of oxidizing organic acids and growing autotrophically on hydrogen with Fe(III) serving as the sole electron acceptor.. Int J Syst Evol Microbiol. 52(Pt 3):719-28.\par \par Kashefi K, Holmes DE, Reysenbach A-L, Lovley DR.\'a0 2002.\'a0\'a0Use of Fe(III) as an electron acceptor to recover previously uncultured hyperthermophiles: isolation and characterization of Geothermobacterium ferrireducens gen. nov., sp. nov.. Appl Environ Microbiol. 68(4):1735-42.\par \par }