|Redox cycling of Fe (II) and Fe (III) in magnetite by Fe-metabolizing bacteria|
JM Byrne, N Klueglein, C Pearce, KM Rosso, E Appel, A Kappler
Science 347 (6229), 1473-1476, 2015
|Biotechnological synthesis of functional nanomaterials|
JR Lloyd, JM Byrne, VS Coker
Current opinion in biotechnology 22 (4), 509-515, 2011
|Control of nanoparticle size, reactivity and magnetic properties during the bioproduction of magnetite by Geobacter sulfurreducens|
JM Byrne, ND Telling, VS Coker, RAD Pattrick, G Van Der Laan, ...
Nanotechnology 22 (45), 455709, 2011
|Microbial reduction of Fe (III) under alkaline conditions relevant to geological disposal|
AJ Williamson, K Morris, S Shaw, JM Byrne, C Boothman, JR Lloyd
Appl. Environ. Microbiol. 79 (11), 3320-3326, 2013
|Biosynthesis of zinc substituted magnetite nanoparticles with enhanced magnetic properties|
JM Byrne, VS Coker, E Cespedes, PL Wincott, DJ Vaughan, RAD Pattrick, ...
Advanced Functional Materials 24 (17), 2518-2529, 2014
|Fate of Cd during microbial Fe (III) mineral reduction by a novel and Cd-tolerant Geobacter species|
EM Muehe, M Obst, A Hitchcock, T Tyliszczak, S Behrens, C Schröder, ...
Environmental science & technology 47 (24), 14099-14109, 2013
|Characterisation of the dissimilatory reduction of Fe (III)‐oxyhydroxide at the microbe–mineral interface: the application of STXM–XMCD|
VS Coker, JM Byrne, ND Telling, G Van Der Laan, JR Lloyd, AP Hitchcock, ...
Geobiology 10 (4), 347-354, 2012
|Controlled cobalt doping in biogenic magnetite nanoparticles|
JM Byrne, VS Coker, S Moise, PL Wincott, DJ Vaughan, F Tuna, ...
Journal of The Royal Society Interface 10 (83), 20130134, 2013
|Arsenic removal from drinking water by a household sand filter in Vietnam—Effect of filter usage practices on arsenic removal efficiency and microbiological water quality|
KS Nitzsche, VM Lan, PTK Trang, PH Viet, M Berg, A Voegelin, ...
Science of the Total Environment 502, 526-536, 2015
|Magnetite and green rust: synthesis, properties, and environmental applications of mixed-valent iron minerals|
M Usman, JM Byrne, A Chaudhary, S Orsetti, K Hanna, C Ruby, A Kappler, ...
Chemical reviews 118 (7), 3251-3304, 2018
|Binding of heavy metal ions in aggregates of microbial cells, EPS and biogenic iron minerals measured in-situ using metal-and glycoconjugates-specific fluorophores|
L Hao, Y Guo, JM Byrne, F Zeitvogel, G Schmid, P Ingino, J Li, TR Neu, ...
Geochimica et Cosmochimica Acta 180, 66-96, 2016
|Mineral precipitation during production of geothermal fluid from a Permian Rotliegend reservoir|
S Regenspurg, E Feldbusch, J Byrne, F Deon, DL Driba, J Henninges, ...
Geothermics 54, 122-135, 2015
|Iron and arsenic speciation and distribution in organic flocs from streambeds of an arsenic-enriched peatland|
LK ThomasArrigo, C Mikutta, J Byrne, K Barmettler, A Kappler, ...
Environmental science & technology 48 (22), 13218-13228, 2014
|The cellular magnetic response and biocompatibility of biogenic zinc-and cobalt-doped magnetite nanoparticles|
S Moise, E Céspedes, D Soukup, JM Byrne, AJ El Haj, ND Telling
Scientific reports 7, 39922, 2017
|Bacterially synthesized ferrite nanoparticles for magnetic hyperthermia applications|
E Céspedes, JM Byrne, N Farrow, S Moise, VS Coker, M Bencsik, ...
Nanoscale 6 (21), 12958-12970, 2014
|Scale-up of the production of highly reactive biogenic magnetite nanoparticles using Geobacter sulfurreducens|
JM Byrne, H Muhamadali, VS Coker, J Cooper, JR Lloyd
Journal of The Royal Society Interface 12 (107), 20150240, 2015
|Fractionation of Fe isotopes during Fe (II) oxidation by a marine photoferrotroph is controlled by the formation of organic Fe-complexes and colloidal Fe fractions|
ED Swanner, W Wu, R Schoenberg, J Byrne, FM Michel, Y Pan, A Kappler
Geochimica et Cosmochimica Acta 165, 44-61, 2015
|Insights into nitrate-reducing Fe (II) oxidation mechanisms through analysis of cell-mineral associations, cell encrustation, and mineralogy in the chemolithoautotrophic …|
M Nordhoff, C Tominski, M Halama, JM Byrne, M Obst, S Kleindienst, ...
Appl. Environ. Microbiol. 83 (13), e00752-17, 2017
|Anaerobic microbial Fe (II) oxidation and Fe (III) reduction in coastal marine sediments controlled by organic carbon content|
K Laufer, JM Byrne, C Glombitza, C Schmidt, BB Jørgensen, A Kappler
Environmental microbiology 18 (9), 3159-3174, 2016
|Influence of organics and silica on Fe (II) oxidation rates and cell–mineral aggregate formation by the green-sulfur Fe (II)-oxidizing bacterium Chlorobium ferrooxidans KoFox …|
T Gauger, JM Byrne, KO Konhauser, M Obst, S Crowe, A Kappler
Earth and Planetary Science Letters 443, 81-89, 2016