William D. Burgos
William D. Burgos
Professor of Environmental Engineering
Geverifieerd e-mailadres voor psu.edu
Geciteerd door
Geciteerd door
The roles of natural organic matter in chemical and microbial reduction of ferric iron
J Chen, B Gu, RA Royer, WD Burgos
Science of the total environment 307 (1-3), 167-178, 2003
Chemical reduction of U (VI) by Fe (II) at the solid− water interface using natural and synthetic Fe (III) oxides
BH Jeon, BA Dempsey, WD Burgos, MO Barnett, EE Roden
Environmental Science & Technology 39 (15), 5642-5649, 2005
Kinetics and mechanisms for reactions of Fe (II) with iron (III) oxides
BH Jeon, BA Dempsey, WD Burgos
Environmental Science & Technology 37 (15), 3309-3315, 2003
Enhancement of biological reduction of hematite by electron shuttling and Fe (II) complexation
RA Royer, WD Burgos, AS Fisher, RF Unz, BA Dempsey
Environmental science & technology 36 (9), 1939-1946, 2002
Reactions of ferrous iron with hematite
BH Jeon, BA Dempsey, WD Burgos, RA Royer
Colloids and Surfaces A: Physicochemical and Engineering Aspects 191 (1-2 …, 2001
Sorption kinetics of Fe (II), Zn (II), Co (II), Ni (II), Cd (II), and Fe (II)/Me (II) onto hematite
BH Jeon, BA Dempsey, WD Burgos, RA Royer
Water Research 37 (17), 4135-4142, 2003
Characterization of uraninite nanoparticles produced by Shewanella oneidensis MR-1
WD Burgos, JT McDonough, JM Senko, G Zhang, AC Dohnalkova, ...
Geochimica et Cosmochimica Acta 72 (20), 4901-4915, 2008
Enhancement of hematite bioreduction by natural organic matter
RA Royer, WD Burgos, AS Fisher, BH Jeon, RF Unz, BA Dempsey
Environmental science & technology 36 (13), 2897-2904, 2002
Effect of calcium on dissolution and precipitation reactions of amorphous silica at high alkalinity
H Maraghechi, F Rajabipour, CG Pantano, WD Burgos
Cement and Concrete Research 87, 1-13, 2016
Reversible sorption and irreversible binding of naphthalene and α-naphthol to soil: Elucidation of processes
WD Burgos, JT Novak, DF Berry
Environmental science & technology 30 (4), 1205-1211, 1996
Schwertmannite and Fe oxides formed by biological low-pH Fe (II) oxidation versus abiotic neutralization: impact on trace metal sequestration
WD Burgos, T Borch, LD Troyer, F Luan, LN Larson, JF Brown, J Lambson, ...
Geochimica et Cosmochimica Acta 76, 29-44, 2012
The effect of U (VI) bioreduction kinetics on subsequent reoxidation of biogenic U (IV)
JM Senko, SD Kelly, AC Dohnalkova, JT McDonough, KM Kemner, ...
Geochimica et Cosmochimica Acta 71 (19), 4644-4654, 2007
Adsorption of quinoline to kaolinite and montmorillonite
WD Burgos, N Pisutpaisal, MC Mazzarese, J Chorover
Environmental engineering science 19 (2), 59-68, 2002
A general paradigm to model reaction‐based biogeochemical processes in batch systems
Y Fang, GT Yeh, WD Burgos
Water Resources Research 39 (4), 2003
Promotion of Mn (II) oxidation and remediation of coal mine drainage in passive treatment systems by diverse fungal and bacterial communities
CM Santelli, DH Pfister, D Lazarus, L Sun, WD Burgos, CM Hansel
Applied and environmental microbiology 76 (14), 4871-4875, 2010
Reduction of U (VI) by Fe (II) in the presence of hydrous ferric oxide and hematite: effects of solid transformation, surface coverage, and humic acid
JH Jang, BA Dempsey, WD Burgos
Water research 42 (8-9), 2269-2277, 2008
Microbial reduction of U (VI) at the solid− water interface
BH Jeon, SD Kelly, KM Kemner, MO Barnett, WD Burgos, BA Dempsey, ...
Environmental science & technology 38 (21), 5649-5655, 2004
Mineralogical transformations controlling acid mine drainage chemistry
T Peretyazhko, JM Zachara, JF Boily, Y Xia, PL Gassman, BW Arey, ...
Chemical Geology 262 (3-4), 169-178, 2009
Bioreduction of Nitrobenzene, Natural Organic Matter, and Hematite by Shewanella putrefaciens CN32
F Luan, WD Burgos, L Xie, Q Zhou
Environmental science & technology 44 (1), 184-190, 2010
Characterization of manganese oxide precipitates from Appalachian coal mine drainage treatment systems
H Tan, G Zhang, PJ Heaney, SM Webb, WD Burgos
Applied Geochemistry 25 (3), 389-399, 2010
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Artikelen 1–20