William Burgos
William Burgos
Professor of Environmental Engineering, Penn State University
Verified email at - Homepage
Cited by
Cited by
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
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
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
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
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
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
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
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
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
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
Adsorption of quinoline to kaolinite and montmorillonite
WD Burgos, N Pisutpaisal, MC Mazzarese, J Chorover
Environmental engineering science 19 (2), 59-68, 2002
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
A general paradigm to model reaction‐based biogeochemical processes in batch systems
Y Fang, GT Yeh, WD Burgos
Water Resources Research 39 (4), 2003
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
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
Environmental and human health impacts of spreading oil and gas wastewater on roads
TL Tasker, WD Burgos, P Piotrowski, L Castillo-Meza, TA Blewett, ...
Environmental science & technology 52 (12), 7081-7091, 2018
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
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