Methods for reactive oxygen species (ROS) detection in aqueous environments JM Burns, WJ Cooper, JL Ferry, DW King, BP DiMento, K McNeill, ... Aquatic sciences 74, 683-734, 2012 | 438 | 2012 |
Kinetic model for Fe (II) oxidation in seawater in the absence and presence of natural organic matter AL Rose, TD Waite Environmental Science & Technology 36 (3), 433-444, 2002 | 393 | 2002 |
Kinetics of iron complexation by dissolved natural organic matter in coastal waters AL Rose, TD Waite Marine chemistry 84 (1-2), 85-103, 2003 | 311 | 2003 |
Increasing the efficiency of hydrogen production from solar powered water electrolysis NA Burton, RV Padilla, A Rose, H Habibullah Renewable and Sustainable Energy Reviews 135, 110255, 2021 | 306 | 2021 |
Chemiluminescence of luminol in the presence of iron (II) and oxygen: oxidation mechanism and implications for its analytical use AL Rose, TD Waite Analytical chemistry 73 (24), 5909-5920, 2001 | 241 | 2001 |
Reduction of organically complexed ferric iron by superoxide in a simulated natural water AL Rose, TD Waite Environmental Science & Technology 39 (8), 2645-2650, 2005 | 204 | 2005 |
Kinetics of Fe (III) precipitation in aqueous solutions at pH 6.0–9.5 and 25 C AN Pham, AL Rose, AJ Feitz, TD Waite Geochimica et Cosmochimica Acta 70 (3), 640-650, 2006 | 185 | 2006 |
Photochemical production of superoxide and hydrogen peroxide from natural organic matter S Garg, AL Rose, TD Waite Geochimica et Cosmochimica Acta 75 (15), 4310-4320, 2011 | 181 | 2011 |
Effect of dissolved natural organic matter on the kinetics of ferrous iron oxygenation in seawater AL Rose, TD Waite Environmental science & technology 37 (21), 4877-4886, 2003 | 180 | 2003 |
Use of Superoxide as an Electron Shuttle for Iron Acquisition by the Marine Cyanobacterium Lyngbya majuscula AL Rose, TP Salmon, T Lukondeh, BA Neilan, TD Waite Environmental Science & Technology 39 (10), 3708-3715, 2005 | 178 | 2005 |
Effects of pH, chloride, and bicarbonate on Cu (I) oxidation kinetics at circumneutral pH X Yuan, AN Pham, G Xing, AL Rose, TD Waite Environmental Science & Technology 46 (3), 1527-1535, 2012 | 140 | 2012 |
Kinetics of hydrolysis and precipitation of ferric iron in seawater AL Rose, TD Waite Environmental science & technology 37 (17), 3897-3903, 2003 | 129 | 2003 |
Hydroxyl Radical Production by H2O2-Mediated Oxidation of Fe(II) Complexed by Suwannee River Fulvic Acid Under Circumneutral Freshwater Conditions CJ Miller, AL Rose, TD Waite Environmental science & technology 47 (2), 829-835, 2013 | 128 | 2013 |
Measurement and implications of nonphotochemically generated superoxide in the equatorial Pacific Ocean AL Rose, EA Webb, TD Waite, JW Moffett Environmental science & technology 42 (7), 2387-2393, 2008 | 117 | 2008 |
Role of superoxide in the photochemical reduction of iron in seawater AL Rose, TD Waite Geochimica et Cosmochimica Acta 70 (15), 3869-3882, 2006 | 107 | 2006 |
Importance of iron complexation for Fenton-mediated hydroxyl radical production at circumneutral pH CJ Miller, AL Rose, TD Waite Frontiers in Marine Science 3, 134, 2016 | 104 | 2016 |
Kinetics of Cu (II) reduction by natural organic matter AN Pham, AL Rose, TD Waite The Journal of Physical Chemistry A 116 (25), 6590-6599, 2012 | 104 | 2012 |
The FeL model of iron acquisition: Nondissociative reduction of ferric complexes in the marine environment TP Salmon, AL Rose, BA Neilan, TD Waite Limnology and Oceanography 51 (4), 1744-1754, 2006 | 93 | 2006 |
High-temperature, point-focus, pressurised gas-phase solar receivers: A comprehensive review M Sedighi, RV Padilla, RA Taylor, M Lake, I Izadgoshasb, A Rose Energy Conversion and Management 185, 678-717, 2019 | 86 | 2019 |
Determination of Superoxide in Seawater Using 2-Methyl-6-(4-methoxyphenyl)-3,7- dihydroimidazo[1,2-a]pyrazin-3(7H)-one Chemiluminescence AL Rose, JW Moffett, TD Waite Analytical Chemistry 80 (4), 1215-1227, 2008 | 83 | 2008 |