Publications

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Lovley DR.  2012.  Long-range electron transport to Fe(III) oxide via pili with metallic-like conductivity.. Biochem Soc Trans. 40(6):1186-90.
Lovley DR.  2017.  Syntrophy Goes Electric: Direct Interspecies Electron Transfer.. Annu Rev Microbiol. 71:643-664.
Lovley DR, Yao J.  2021.  Intrinsically Conductive Microbial Nanowires for 'Green' Electronics with Novel Functions.. Trends Biotechnol. 39(9):940-952.
Lovley DR, Phillips EJ.  1994.  Reduction of Chromate by Desulfovibrio vulgaris and Its c(3) Cytochrome.. Appl Environ Microbiol. 60(2):726-8.
Lovley DR.  2017.  Happy together: microbial communities that hook up to swap electrons.. ISME J. 11(2):327-336.
Lovley DR.  2012.  Electromicrobiology.. Annu Rev Microbiol.
Lovley DR, Phillips EJ.  1992.  Reduction of uranium by Desulfovibrio desulfuricans.. Appl Environ Microbiol. 58(3):850-6.
Lovley DR.  2002.  Analysis 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.
Lovley DR, Phillips EJ.  1987.  Rapid assay for microbially reducible ferric iron in aquatic sediments.. Appl Environ Microbiol. 53(7):1536-40.
Lovley DR, Klug MJ.  1983.  Sulfate reducers can outcompete methanogens at freshwater sulfate concentrations.. Appl Environ Microbiol. 45(1):187-92.
Lovley DR, Lloyd JR.  2000.  Microbes with a mettle for bioremediation.. Nat Biotechnol. 18(6):600-1.
Lovley DR.  2008.  Extracellular electron transfer: wires, capacitors, iron lungs, and more.. Geobiology. 6(3):225-31.
Lovley DR.  1995.  Bioremediation of organic and metal contaminants with dissimilatory metal reduction.. J Ind Microbiol. 14(2):85-93.
Lovley DR.  2008.  The microbe electric: conversion of organic matter to electricity.. Curr Opin Biotechnol. 19(6):564-71.
Lovley DR.  2003.  Cleaning up with genomics: applying molecular biology to bioremediation.. Nat Rev Microbiol. 1(1):35-44.
Lovley DR, Lonergan DJ.  1990.  Anaerobic Oxidation of Toluene, Phenol, and p-Cresol by the Dissimilatory Iron-Reducing Organism, GS-15.. Appl Environ Microbiol. 56(6):1858-64.
Lovley DR, Ferry JG.  1985.  Production and Consumption of H(2) during Growth of Methanosarcina spp. on Acetate.. Appl Environ Microbiol. 49(1):247-9.
Lovley DR, Woodward JC, Chapelle FH.  1996.  Rapid Anaerobic Benzene Oxidation with a Variety of Chelated Fe(III) Forms.. Appl Environ Microbiol. 62(1):288-91.
Lovley DR, Phillips EJ.  1994.  Novel processes for anaerobic sulfate production from elemental sulfur by sulfate-reducing bacteria.. Appl Environ Microbiol. 60(7):2394-9.
Lovley DR, Walker DJF.  2019.   Protein Nanowires.. Front Microbiol. 10:2078.
Lovley DR, Phillips EJ, Caccavo F.  1992.  Acetate oxidation by dissimilatory Fe(III) reducers.. Appl Environ Microbiol. 58(9):3205-8.
Lovley DR, Malvankar NS.  2015.  Seeing is believing: novel imaging techniques help clarify microbial nanowire structure and function.. Environ Microbiol. 17(7):2209-15.
Lovley DR.  2022.  Untangling Geobacter sulfurreducens Nanowires.. mBio. 13(3):e0085022.
Lovley DR, Chapelle FH.  1996.  Hydrogen-based microbial ecosystems in the Earth.. Science. 272(5263):896b.
Lovley DR.  2018.  The Hydrogen Economy of Methanosarcina barkeri: Life in the Fast Lane.. J Bacteriol. 200(20)

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