Peter Vikesland
Peter Vikesland
Professor of Civil and Environmental Engineering, Virginia Tech
Verified email at - Homepage
Cited by
Cited by
Natural, incidental, and engineered nanomaterials and their impacts on the Earth system
MF Hochella Jr, DW Mogk, J Ranville, IC Allen, GW Luther, LC Marr, ...
Science 363 (6434), eaau8299, 2019
DeepARG: a deep learning approach for predicting antibiotic resistance genes from metagenomic data
G Arango-Argoty, E Garner, A Pruden, LS Heath, P Vikesland, L Zhang
Microbiome 6, 1-15, 2018
Surface-enhanced Raman spectroscopy (SERS) for environmental analyses
RA Halvorson, PJ Vikesland
Environmental science & technology 44 (20), 7749-7755, 2010
Monochloramine decay in model and distribution system waters
PJ Vikesland, K Ozekin, RL Valentine
Water Research 35 (7), 1766-1776, 2001
Formation of chloroform and chlorinated organics by free-chlorine-mediated oxidation of triclosan
KL Rule, VR Ebbett, PJ Vikesland
Environmental Science & Technology 39 (9), 3176-3185, 2005
Environmental science and engineering applications of nanocellulose-based nanocomposites
H Wei, K Rodriguez, S Renneckar, PJ Vikesland
Environmental Science: Nano 1 (4), 302-316, 2014
Plasmonic colorimetric and SERS sensors for environmental analysis
H Wei, SMH Abtahi, PJ Vikesland
Environmental Science: Nano 2 (2), 120-135, 2015
Nanomaterial enabled biosensors for pathogen monitoring-a review
PJ Vikesland, KR Wigginton
Environmental science & technology 44 (10), 3656-3669, 2010
Toward a comprehensive strategy to mitigate dissemination of environmental sources of antibiotic resistance
PJ Vikesland, A Pruden, PJJ Alvarez, D Aga, H Bürgmann, X Li, ...
Environmental Science & Technology 51 (22), 13061-13069, 2017
Longevity of granular iron in groundwater treatment processes: solution composition effects on reduction of organohalides and nitroaromatic compounds
J Klausen, PJ Vikesland, T Kohn, DR Burris, WP Ball, AL Roberts
Environmental Science & Technology 37 (6), 1208-1218, 2003
Fractionating nanosilver: importance for determining toxicity to aquatic test organisms
AJ Kennedy, MS Hull, AJ Bednar, JD Goss, JC Gunter, JL Bouldin, ...
Environmental science & technology 44 (24), 9571-9577, 2010
Formation of chloroform and other chlorinated byproducts by chlorination of triclosan-containing antibacterial products
EM Fiss, KL Rule, PJ Vikesland
Environmental science & technology 41 (7), 2387-2394, 2007
Nanosensors for water quality monitoring
PJ Vikesland
Nature nanotechnology 13 (8), 651-660, 2018
Differential drivers of antimicrobial resistance across the world
P Vikesland, E Garner, S Gupta, S Kang, A Maile-Moskowitz, N Zhu
Accounts of chemical research 52 (4), 916-924, 2019
Effects of oxidation on the magnetization of nanoparticulate magnetite
RL Rebodos, PJ Vikesland
Langmuir 26 (22), 16745-16753, 2010
Particle size and aggregation effects on magnetite reactivity toward carbon tetrachloride
PJ Vikesland, AM Heathcock, RL Rebodos, KE Makus
Environmental science & technology 41 (15), 5277-5283, 2007
Longevity of granular iron in groundwater treatment processes: corrosion product development
T Kohn, KJT Livi, AL Roberts, PJ Vikesland
Environmental Science & Technology 39 (8), 2867-2879, 2005
Mechanistic theory predicts the effects of temperature and humidity on inactivation of SARS-CoV-2 and other enveloped viruses
DH Morris, KC Yinda, A Gamble, FW Rossine, Q Huang, T Bushmaker, ...
Elife 10, e65902, 2021
Nanomaterial enabled sensors for environmental contaminants
MR Willner, PJ Vikesland
Journal of nanobiotechnology 16, 1-16, 2018
C60 Colloid Formation in Aqueous Systems: Effects of Preparation Method on Size, Structure, and Surface Charge
LK Duncan, JR Jinschek, PJ Vikesland
Environmental science & technology 42 (1), 173-178, 2008
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