Publications

Export 284 results:
Filters: Author is Lovley, Derek R  [Clear All Filters]
A B C D E F G H I J K L M N O P Q R S T U V W X Y Z 
M
Finneran KT, Housewright ME, Lovley DR.  2002.  Multiple influences of nitrate on uranium solubility during bioremediation of uranium-contaminated subsurface sediments.. Environ Microbiol. 4(9):510-6.
Yun J, Ueki T, Miletto M, Lovley DR.  2011.  Monitoring the metabolic status of geobacter species in contaminated groundwater by quantifying key metabolic proteins with Geobacter-specific antibodies.. Appl Environ Microbiol. 77(13):4597-602.
Holmes DE, Giloteaux L, Barlett M, Chavan MA, Smith JA, Williams KH, Wilkins M, Long P, Lovley DR.  2013.  Molecular analysis of the in situ growth rates of subsurface Geobacter species.. Appl Environ Microbiol. 79(5):1646-53.
N'guessan LA, Elifantz H, Nevin KP, Mouser PJ, Methé B, Woodard TL, Manley K, Williams KH, Wilkins MJ, Larsen JT et al..  2010.  Molecular analysis of phosphate limitation in Geobacteraceae during the bioremediation of a uranium-contaminated aquifer.. ISME J. 4(2):253-66.
Zhao J, Fang Y, Scheibe TD, Lovley DR, Mahadevan R.  2010.  Modeling and sensitivity analysis of electron capacitance for Geobacter in sedimentary environments.. J Contam Hydrol. 112(1-4):30-44.
Franks AE, Nevin KP, Glaven RH, Lovley DR.  2010.  Microtoming coupled to microarray analysis to evaluate the spatial metabolic status of Geobacter sulfurreducens biofilms.. ISME J. 4(4):509-19.
Nevin KP, Finneran KT, Lovley DR.  2003.  Microorganisms associated with uranium bioremediation in a high-salinity subsurface sediment.. Appl Environ Microbiol. 69(6):3672-5.
Vrionis HA, Anderson RT, Ortiz-Bernad I, O'Neill KR, Resch CT, Peacock AD, Dayvault R, White DC, Long PE, Lovley DR.  2005.  Microbiological and geochemical heterogeneity in an in situ uranium bioremediation field site.. Appl Environ Microbiol. 71(10):6308-18.
Lekbach Y, Ueki T, Liu X, Woodard T, Yao J, Lovley DR.  2023.  Microbial nanowires with genetically modified peptide ligands to sustainably fabricate electronic sensing devices.. Biosens Bioelectron. 226:115147.
Malvankar NS, Lovley DR.  2014.  Microbial nanowires for bioenergy applications.. Curr Opin Biotechnol. 27:88-95.
Malvankar NS, Lovley DR.  2012.  Microbial nanowires: a new paradigm for biological electron transfer and bioelectronics.. ChemSusChem. 5(6):1039-46.
Lovley DR.  2022.  Microbial nanowires.. Curr Biol. 32(3):R110-R112.
Chang Y-J, Long PE, Geyer R, Peacock AD, Resch CT, Sublette K, Pfiffner S, Smithgall A, Anderson RT, Vrionis HA et al..  2005.  Microbial incorporation of 13C-labeled acetate at the field scale: detection of microbes responsible for reduction of U(VI).. Environ Sci Technol. 39(23):9039-48.
Liang Y, Van Nostrand JD, N'guessan LA, Peacock AD, Deng Y, Long PE, Resch TC, Wu L, He Z, Li G et al..  2012.  Microbial functional gene diversity with a shift of subsurface redox conditions during In Situ uranium reduction.. Appl Environ Microbiol. 78(8):2966-72.
Lovley DR.  2006.  Microbial fuel cells: novel microbial physiologies and engineering approaches.. Curr Opin Biotechnol. 17(3):327-32.
Nevin KP, Woodard TL, Franks AE, Summers ZM, Lovley DR.  2010.  Microbial electrosynthesis: feeding microbes electricity to convert carbon dioxide and water to multicarbon extracellular organic compounds.. MBio. 1(2)
Lekbach Y, Liu T, Li Y, Moradi M, Dou W, Xu D, Smith JA, Lovley DR.  2021.  Microbial corrosion of metals: The corrosion microbiome.. Adv Microb Physiol. 78:317-390.
Liu X, Ueki T, Gao H, Woodard TL, Nevin KP, Fu T, Fu S, Sun L, Lovley DR, Yao J.  2022.  Microbial biofilms for electricity generation from water evaporation and power to wearables.. Nat Commun. 13(1):4369.

Pages