Uranium(VI) adsorption to ferrihydrite: Application of a surface complexation model TD Waite, JA Davis, TE Payne, GA Waychunas, N Xu Geochimica et Cosmochimica Acta 58 (24), 5465-5478, 1994 | 1100 | 1994 |
Electronic spectra of Fe3+ oxides and oxide hydroxides in the near IR to near UV DM Sherman, TD Waite American Mineralogist 70 (11-12), 1262-1269, 1985 | 962 | 1985 |
Nanofiltration: principles and applications AI Schäfer, AG Fane, TD Waite Elsevier Science, 2005 | 924 | 2005 |
Distinguishing between terrestrial and autochthonous organic matter sources in marine environments using fluorescence spectroscopy KR Murphy, CA Stedmon, TD Waite, GM Ruiz Marine Chemistry 108 (1-2), 40-58, 2008 | 816 | 2008 |
Relation between the redox state of iron-based nanoparticles and their cytotoxicity toward Escherichia coli M Auffan, W Achouak, J Rose, MA Roncato, C Chanéac, DT Waite, ... Environmental Science & Technology 42 (17), 6730-6735, 2008 | 666 | 2008 |
Fenton-like copper redox chemistry revisited: hydrogen peroxide and superoxide mediation of copper-catalyzed oxidant production AN Pham, G Xing, CJ Miller, TD Waite Journal of Catalysis 301, 54-64, 2013 | 657 | 2013 |
Faradaic reactions in capacitive deionization (CDI) - problems and possibilities: A review C Zhang, D He, J Ma, W Tang, TD Waite Water Research 128, 314-330, 2018 | 620 | 2018 |
The Technology Horizon for Photocatalytic Water Treatment: Sunrise or Sunset? SK Loeb, P Alvarez, J Brame, E Cates, W Choi, J Crittenden, D Dionysios, ... Environmental Science and Technology 53 (6), 2937 − 2947, 2019 | 594 | 2019 |
Quantification of the oxidizing capacity of nanoparticulate zero-valent iron SH Joo, AJ Feitz, DL Sedlak, TD Waite Environmental Science & Technology 39 (5), 1263-1268, 2005 | 502 | 2005 |
Oxidative degradation of the carbothioate herbicide, molinate, using nanoscale zero-valent iron SH Joo, AJ Feitz, TD Waite Environmental Science & Technology 38 (7), 2242-2247, 2004 | 491 | 2004 |
Trace Element Speciation: Analytical Methods and Problems TD Waite CRC Press, Inc.: Boca Raton, FL, 1989 | 444* | 1989 |
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 (4), 683-734, 2012 | 425 | 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 | 385 | 2002 |
Photoreductive dissolution of colloidal iron oxides in natural waters TD Waite, FMM Morel Environmental Science & Technology 18 (11), 860-868, 1984 | 381 | 1984 |
The effect of silica and natural organic matter on the Fe(II)-catalysed transformation and reactivity of Fe(III) minerals AM Jones, RN Collins, J Rose, TD Waite Geochimica et Cosmochimica Acta 73 (15), 4409-4422, 2009 | 380 | 2009 |
Ultrafiltration of natural organic matter E Aoustin, AI Schäfer, AG Fane, TD Waite Separation and Purification Technology 22, 63-78, 2001 | 352 | 2001 |
Removal of the natural hormone estrone from aqueous solutions using nanofiltration and reverse osmosis AI Schäfer, LD Nghiem, TD Waite Environmental Science & Technology 37 (1), 182-188, 2003 | 350 | 2003 |
Fouling effects on rejection in the membrane filtration of natural waters AI Schäfer, AG Fane, TD Waite Desalination 131 (1-3), 215-224, 2000 | 344 | 2000 |
Effect of solution and solid-phase conditions on the Fe(II)-accelerated transformation of ferrihydrite to lepidocrocite and goethite D Boland, RN Collins, CJ Miller, CJ Glover, TD Waite Environmental Science & Technology 48, 5477−5485, 2014 | 313 | 2014 |
Nanofiltration of natural organic matter: Removal, fouling and the influence of multivalent ions AL Schafer, AG Fane, TD Waite Desalination 18, 109–122, 1998 | 308 | 1998 |