Mezyk Peer-Reviewed Publications


Accepted for publication:

Clark, K.K.; Mezyk, S.P.; Abbott, A.; Kiddle, J.J., AOP radical-based oxidation destruction of pesticides in water: Kinetics and model compound studies, in Chemosphere, 2017.


[156]  Ekberg, C.; Jensen, H.; Mezyk, S.P.; Mincher, B.J.; Skarnemark, G., Extraction of 211At from nitric acid solutions into various organic solvents, J. Radio. Nucl. Chem., 314, 235-239, (2017).  

[155]  Drader, J.; Saint-Louis, G.; Muller, J.M.; Charbonnel, M.-C.; Guilbaud, P.; Berthon, L.; Roscioli-Johnson, K.M.; Zarzana, C.A.; Rae, C.; Groenewold, G.S.; Mincher, B.J.; Mezyk, S.P.; McCann, K.; Braley, J., Radiation chemistry of the branched-chain monoamide di-ethylhexyl-isobutyramide, Solv. Ext. Ion Exch., 35, 480-495, (2017).

[154]  Gleason, J.M.; McKay, G.J., Ishida, K.P.; Mezyk, S.P., Temperature dependence of hydroxyl radical reactions with chloramine species in aqueous solution. Chemosphere, 187, 123-129, (2017).

[153]  McConville, M.B.; Mezyk, S.P.; Remucal, C.K. Indirect photodegradation of the lampricides TFM and niclosamide. Env. Sci. Process. Impacts, 19, 1028-1039, (2017).

[152]  Mezyk, S.P.; Cullen, T.D.; Rickman, K.A.; Mincher, B.J., The reactivity of nitrate radical (NO3) in aqueous and organic solution. in Int. J. Chem. Kinet., 49, 635-642, (2017).

[151]  Grimes, T.S.; Horne, G.P.; Dares, C.J.; Pimblott, S.M.; Mezyk, S.P.; Mincher, BJ., Kinetics of the autoreduction of hexavalent americium in aqueous nitric acid. Inorg. Chem. 56, 8295-8301, (2017).

[150]  Larsson, K.; Cullen, T.D.; Mezyk, S.P.; McDowell, R.G.; Martin, L.R., Complexation kinetics of DTPA with lanthanides in aqueous solutionRoyal Soc. Chem. Adv. 7, 26507-26512 (2017).

[149]  Zhao, C.; Peller, J.; Mezyk, S.P.; Kamat, P.; O’Shea, K.E., Oxidative remediation of 4-methylcyclohexane-methanol (MCHM) and propylene glycol phenyl ether (PPh).  Evidence of contaminant repair reaction pathways. Phys. Chem. Chem. Phys., 19, 13324-13332 (2017). 

[148]  Duan, X.; He, X.; Wang, D.; Mezyk, S.P.; Otto, S.C.; Marfil-Vega, R.; Mills, M.A.; Dionysiou, D.D.*,  Decomposition of iodinated pharmaceuticals by 254 nm –assisted advanced oxidation processes,  J. Hazard. Mat., 323, 489-499 (2017).

[147]  Patton, S.; Li, W.; Mezyk, S.P.; Couch, K.D.; Ishida, K.P.; Liu, H.*, UV Photolysis of Monochloramine on 1,4-dioxane Removal: Implications on Potable Water Reuse, Env. Sci. Tech. Lett., 4(1), 26-30, (2017).


[146]  Walker, J.A.; Mezyk, S.P.; Roduner, E.; Bartels, D.M.*, Isotope dependence and quantum effects on atomic hydrogen diffusion in liquid water, J. Phys. Chem. B, 120(8), 1771-1779, (2016)

[145]  McKay, G.; Couch, K.D.; Mezyk, S.P.; Rosario-Ortiz, F.L*., Investigation of the Coupled Effects of Molecular Weight and Charge Transfer Interactions on the Optical and Photochemical Properties of Dissolved Organic Matter, Env. Sci. Technol., 50(15), 8093-8102, (2016).

[144]  Horne, G.P.*; Grimes, T.S.; Mincher, B.J.; Mezyk, S.P., Re-evaluation of neptunium-nitric acid radiation chemistry by multi-scale modelling, J. Phys. Chem. B., 120(4) 12643-12649 (2016)

[143] Wilden, A.*; Modolo, G.; Hupert, M.; Santiago-Schubel, B.; Lofstrom-Engdahl, E.; Hallerod, J.; Ekberg, C.; Mincher, B.J.; Mezyk, S.P., Gamma-radiolytic stability of solvents containing C5-BPP (2,6-Bis(5-(2,2-dimethylpropyl)-1H-pyrazol-3-yl)pyridine) for actinide(III)/lanthanide(III) separation. Solv. Ext. Ion Exch. 2015.
[142]  Mezyk, S.P*.; Mincher, B.J.; Dihman, S.B.; Layne, B.; Wishart, J.F., The role of organic solvent radical cations in separations ligand degradation.J. Radioanal. Nucl. Chem., 307, 2445-2449, (2016).

[141]  Santoke, H.; Tong, A.Y.C.; Mezyk, S.P.; Johnston, K.M.; Braund, R.; Cooper, W.J.*; Peake, B.M., UV photodegradation of Enoxacin in WaterKinetics and Degradation PathwaysJ. Env. Eng., 141, 04015027, (2015).

[140]   Minakata, D.*; Song, W.; Mezyk, S.P.; Echigo, S.; Cooper, W.J., Experimental and theoretical studies on aqueous-phase reactivity of hydroxyl radicals with multiple carboxylated and hydroxylated benzene compounds, Phys. Chem. Chem. Phys., 17, 11796-11812 (2015).

[139]   Zarzana, C.A.*;  Groenewold, G.S.; Mincher, B.J.; Mezyk, S.P.; Wilden, A.; Schmidt, H .; Modolo, G.; Wishart, J.F.; Cook, A.R., A Comparison of the γ-radiolysis of TODGA and T(EH)DGA using UHPLC-ESI-MS Analysis. Solv. Extr. Ion Exch., 33, 431-447, (2015).

[138]   Minakata, D.*; Mezyk, S.P.; Jones, J.; Daws, B.R.; Crittenden, J.C., Uniform Theory and Application of Linear Free Energy Relationships for Aqueous Phase Radical-Involved Chemical Reactions, Environ. Sci. Tech., 48, 13925-13932, (2014).

[137]   Glover, C.M.; Mezyk, S.P.; Linden, K.G.; Rosario-Ortiz, F.L.*, Photochemical Degradation of Corexit Components in Ocean Water, Chemosphere, 111, 596-602, (2014).

[136]   McKay, G.; Mezyk, S.P.*, Using Polyethylene Glycols to Understand the Temperature Dependence of the Dissolved Organic Matter-HO Reaction, ACS Symposium Series 1160 “Advances in the Physicochemical Characterization of Dissolved Organic Matter:  Impact on Natural and Engineered Systems”, Chapter 9, 181-191, (2014).

[135]    He, X.; Mezyk, S.P.; Michael, I.; Fatta-Kassinos, D.; Dionysiou, D.D,* Degradation Kinetics and Mechanism of b-lactam Antibiotics by the Activation of H2O2 and Na2S2O8 under UV-254 nm Irradiation. J. Hazard. Mater., 279, 375-383, (2014). 

[134]    Mincher, B.J.; Mezyk, S.P.; Elias, G.; Groenewold, G.S.; LaVerne, J.A.; Nilsson, M.; Pearson, J.; Schmitt, N.C., The radiation chemistry of CMPO: Part 2.  Alpha radiolysis.  Solv. Ext. Ion Exch., 32, 167-178, (2014).


[133]   McKay, G.; Kleinman, J.L.; Johnston, K.M.; Dong, M.M.; Rosario-Ortiz, F.L.; Mezyk, S.P., Kinetics of the reaction between the hydroxyl radical and organic matter standards from the International Humic Substance Society, J. Soils Sediment, 14, 298-304, (2014).

[132]   Keen, O.S.; McKay, G.; Mezyk, S.P.; Linden, K.G.; Rosario-Ortiz, F.L., Identifying the factors that influence the reactivity of effluent organic matter with  hydroxyl radicals. Wat. Res. 50, 408-419 (2014).

[131]  Mezyk, S.P.; Rickman, K.A.; Hirsch, C.M.; Dail, M.K.; Scheeler, J.; Foust, T., Advanced Oxidation and Reduction Process Radical Generation in the Laboratory and on a Large Scale: An Overview., ACS Symposium Series Volume 1123 “Novel Solutions to Water Pollution”, Chapter 9, 227-248 (2013).

[130]  Mincher, B.J.; Mezyk, S.P.; Elias, G.; Groenewold, G.S.; Riddle, C.L.; Olson, L.G., The radiation chemistry of CMPO: Part 1.  Gamma radiolysis, Solv. Ext. Ion Exch., 7, 715-730, (2013).

[129]  McKay, G.; Sjelin, B.; Chagnon, M.; Ishida, K.P.; Mezyk, S.P., Kinetic study of the reactions between chloramine disinfectants and hydrogen peroxide: Temperature dependence and reaction mechanism, Chemosphere, 92, 1417-1422, (2013).

[128]  Mezyk, S.P.; Otto, S., Quantitative removal of ß-lactam antibiotic activity by hydroxyl radical reactions in water: How much oxidation is enough?, J. Adv. Oxid. Technol., 16, 117-122, (2013).

[127] Cullen, T.D.; Mezyk, S.P.; Martin, L.R.; Mincher, B.J., Elucidating the Radical Kinetics Involved in the Radiolytic Destruction of Lanthanide-Complexed DTPA SeparationsJ. Radioanal. Nucl. Chem., 296, 717-720, (2013).

[126]   Mincher, B.J*; Precek, M.; Mezyk, S.P.; Elias, G.; Martin, L.R.; Paulenova, A., The redox chemistry of neptunium in g-irradiated aqueous nitric acidRadiochim. Acta. 101, 259-266, (2013).

[125]  Rickman, K.A.Swancutt, K.L.; Mezyk, S.P.;* Kiddle, J.J.*, Radical-induced oxidation and reduction chemistry of isoniazidBioorg. Med. Chem. 23, 3096-3100, (2013).

[124]   Mezyk, S.P.; Mincher, B.J.; Ekberg, C.; Skarnmark, G., Alpha and Gamma Radiolysis of Nuclear Solvent Extraction Ligands used for An(III) and Ln(III) SeparationsJ. Radioanal. Nucl. Chem., 296, 711-715, (2013).

[123]   Mincher, B.J.; Precek, M.; Mezyk, S.P.; Martin, L.R.; Paulenova, A. The role of oxidizing radicals in neptunium speciation in g-irradiated nitric acid, J. Radioanal. Nucl. Chem., 296, 27-30, (2013). 

[122]    Peller, J.R.; Ishida, K.P.; Mezyk, S.P., Ionizing radiation techniques to determine hydroxyl radical efficiencies of organic pollutant mixtures in treated wastewaters, to ACS Symp. Series “Monitoring Water Quality” Chapter 2, 15-30, (2013).

[121]    Toth, J.E.; Rickman, K.A.; Venter, A.; Kiddle, J.J.; Mezyk, S.P., Reaction kinetics and efficiencies for the hydroxyl and sulfate radical based oxidation of artificial sweeteners in water J. Phys. Chem. A., 116, 9819-9824, (2012).

[120]  Groenewold, G.S.*; Elias, G.; Mincher, B.J.; Mezyk, S.P.; LaVerne, J.A., Characterization of CMPO and its radiolysis products by direct infusion ESI-MSTalanta, 99, 909-917, (2012).

[119]   Mezyk, S.P.*; Razavi, B.; Swancutt, K.L.; Cox, C.R.; Kiddle, J.J., Radical-based destruction of nitramines in water:  Kinetics and efficiencies of hydroxyl radical and hydrated electron reactions, J. Phys. Chem. A.116, 8185-8190, (2012).

[118]  Elias, G.; Groenwold, G.S.; Mincher, B.J.; Mezyk, S.P., Determination of CMPO and identification of some radiolysis products using HPLC-UV and mass spectrometryJ. Chromatog. A1243, 47-52, (2012).

[117]   Mezyk, S.P.; Mincher, B.M.; Cooper, W.J.; Cole, S.K.; Fox, R.V.; Gardinali, P., Free-radical chemistry of disinfection byproducts 4.  Degradation mechanisms of bromodichloronitromethane and chlorodibromonitromethane. Rad. Phys. Chem. 81, 1646-1652, (2012).

[116]    Mezyk, S.P.; Rickman, K.A.; McKay, G.; Hirsch, C.M.; He, X.; Dionysiou, D.D., Remediation of Chemically-Contaminated Waters Using Sulfate Radical Reactions: Kinetics and Product Studies, American Chemical Society Symposium on Aquatic Redox Chemistry, 239th American Chemical Society (ACS) National Meeting, 21-25 March 2010, San Francisco, CA, 247-263.

[115]   McKay, G.; Dong, M.M.; Kleinman, J.L.; Mezyk, S.P.; Rosario-Ortiz, F.L., Temperature dependence of the reaction between the hydroxyl radical and organic matter, Env. Sci. Technol.45(16), 6932-6937, (2011).

[114]   Swancutt, K.L.; Mezyk, S.P.; Tillotson, R.D.; Pailloux, S.; Chakravarty, M.; Paine, R.T.; Martin, L.R., Radiolytic Degradation in Lanthanide/Actinide Separation Ligands – NOPOPO: Radical Kinetics and Efficiencies DeterminationsSolv. Ext. Ion Exch. 29(4), 637-654, (2011).

[113]   Madden, K.P.; Mezyk, S.P., Critical review of aqueous solution reaction rate constants for hydrogen atoms.  J. Phys. Chem. Ref. Data40(2), 023103 (2011). doi:10.1063/1.3578343 (43 pages).

[112]   Peller, J.R.; Cooper, W.J.; Ishida, K.P.; Mezyk, S.P.  Evaluation of parameters influencing removal efficiencies for organic contaminant degradation in advanced oxidation processes.  J. Water Supply: Res. Technol. - AQUA60.2, 69-78 (2011).

[111]   Swancutt, K.L.Cullen, T.D.; Mezyk, S.P.; Elias, G.; Bauer, W.F.; Peterman, D.R.; Riddle, C.L.; Ball, R.D.; Mincher, B.J.; Muller, J.J., The Radiation Chemistry of the Cs-7SB Modifier used in Cs and Sr Solvent Extraction, Solv.  Ext. Ion Exch. 29, 106-127 (2011).

[110]   Elias, G.; Mincher, B.J.; Mezyk, S.P.; Muller, J.; Martin, L.R., Toluene nitration in irradiated nitric acid and nitrite solutions, Rad. Phys. Chem. 80, 554-560 (2011). 

[109]   Rickman, K.A.; Mezyk, S.P., Removing Estrogenic Steroids from Waters: The Role of Reducing Hydrated Electron Reactions  J. Adv. Ox. Tech., 14, 81-85 (2011).

[108]  Mezyk, S.P.; Cullen, T.D.; Elias, G.; Mincher, B.J., Aqueous Nitric Acid Radiation Effects on Solvent Extraction Process Chemistry, ACS Symposium Series 1046: Nuclear Energy and the Environment, Vol. 1046, Chapter 16, 193-203, (2010).

[107]  Elias, G.; Mincher, B.J.; Mezyk, S.P.; Cullen, T.D.; Martin, L.R., Nitration Mechanisms of Anisole during Gamma Irradiation of Aqueous Nitrite and Nitrate SolutionsACS Symposium Series 1046: Nuclear Energy and the Environment, Vol. 1046, Chapter 17, 205-214, (2010).

[106]  Martin, L.R.; Mincher, B.J.; Mezyk, S.P.; Elias, G.; Tillotson, R.D., Effects of Aqueous Phase Radiolysis on Lactic Acid under TALSPEAK ConditionsACS Symposium Series 1046: Nuclear Energy and the Environment, Vol. 1046, Chapter 20, 243-253, (2010).

[105]  Swancutt, K.L.; Mezyk, S.P.; Martin, L.R., Kinetics and Efficiencies of Radiolytic Degradation in Lanthanide/Actinide Separation Ligands – NOPOPOACS Symposium Series 1046Nuclear Energy and the Environment, Vol. 1046, Chapter 19, 231-242, (2010).

[104]  Mezyk, S.P.; Abud, E.M.; Swancutt, K.L.; McKay, G.; Dionysiou, D.D., Removing steroids from contaminated waters using radical reactionsACS Symposium Series 1048: Contaminants of Emerging Concern in the Environment:  Ecological and Human Health Considerations, Vol. 1048, Chapter 9, 213-225 (2010). 
[103]  K.A. Rickman, S.P. Mezyk, Sulfate radical remediation of chemically contaminated waters:  Destruction of β-lactam antibiotic activity, Chemosphere, 81, 359-365 (2010).
[102]  M.K. Dail, S.P. Mezyk, Hydroxyl radical-induced degradative oxidation of β-lactam antibiotics in water:  Absolute rate constant measurements. J. Phys. Chem. A., 114, 8391-8395 (2010). 
[101]  K.L. Swancutt, M.K. Dail, S.P. Mezyk, K.P. Ishida, Absolute Kinetics and Reaction Efficiencies of Hydroyxl Radical Induced Degradation of Methyl Isothiocyanate (MITC) in Different Quality Waters, Chemosphere, 81, 339-344 (2010). 
[100]  M.M. Dong, S.P. Mezyk, F.L. Rosario-Ortiz*, Reactivity of effluent organic matter (EfOM) with hydroxyl radical as a function of molecular weight. Env. Sci. Technol. 44, 5714-5720 (2010).
[99]  B.J. Mincher, G. Modolo, S.P. Mezyk, SP., Review:  Effects of Radiation Chemistry on Solvent Extraction IV.  Separation of Trivalent Actinides and Considerations for Radiation Resistant Solvent Systems, Solv. Ext. Ion Exch., 28, 415-436 (2010).
[98]  A. Abbott, T. Sierakowski, J. J. Kiddle*, K.K. Clark, S. P. Mezyk*,  A Detailed Investigation of the Reductive Destruction of Chemical Warfare Agent Simulants in Water, J. Phys. Chem. B, 114, 7681-7685 (2010).
[97]  K.L. Swancutt, S.P. Mezyk*, J.J. Kiddle, Free-Radical-Induced Chemistry of Nedaplatin and Satraplatin under Physiological Conditions, Rad. Res., 173, 843-848 (2010).
[96]  G. Elias, B.J. Mincher*, S.P. Mezyk, T. Cullen, L.R. Martin, Anisole Nitration During Gamma-Irradiation of Aqueous Nitrite and Nitrate Solutions:  Free Radical vs. Ionic Mechanisms, Env. Chem., 7, 183-189 (2010).
[95] B.J. Mincher*, S.P. Mezyk*, W.J. Cooper, S.K. Cole, R.V. Fox, P.R. Gardinali, Free Radical Chemistry of Disinfection Byproducts. 3. Degradation Mechanisms of Chloronitromethane, Bromonitromethane and Dichloronitromethane, J. Phys. Chem. A, 114, 117-125 (2010).

[94] B.J. Mincher*, G. Elias, L.R. Martin, S.P. Mezyk, Radiation Chemistry and the Nuclear Fuel Cycle, J. Radioanal. Nucl. Chem., 282, 645-649 (2009).
[93] S.P. Mezyk*, D.R. Hardison , K.E. O’Shea, W. Song, D.M. Bartels, W.J. Cooper, Radiation Chemistry of Methyl tert-Butyl Ether (MTBE) Reaction Intermediates in Aqueous Solution: 2-Methoxy-2-methyl Propanal, 2-Methoxy-2-Propanol, and 2-Methoxy-2–Propanoic Acid, Chemosphere 77, 1352-1357 (2009).
[92] B.J. Mincher*, G. Modolo, S.P. Mezyk, The Effects of Radiation Chemistry on Solvent Extractions: 3. A Review of Fission Product Extraction, A Review of Actinide and Lanthanide Extraction, Solv. Ext. Ion Exch. 27, 579-606 (2009).
[91] B.J. Mincher* and S.P. Mezyk, Radiation Chemistry Effects on Radiochemistry: A Review of Examples Important Nuclear Power, Radiochim Acta, 97, 519-534 (2009).
[90] B.J. Mincher*, G. Modolo, S.P. Mezyk, The Effects of Radiation Chemistry on Solvent Extractions: 2. A Review of Fission Product Extraction, Solv. Ext. Ion Exch. 27, 331-353 (2009).
[89] K.G. Jones , W.J. Cooper, S.P. Mezyk*, Absolute Rate Constant Determination for the Reaction of Hydroxyl Radicals with Domoic and Kainic Acid in Aqueous Solution, Env. Sci. Technol., 43(17), 6764-6768, (2009).
[88] W.J. Cooper*, C. Cramer, N.H. Martin, S.P. Mezyk, K.E. O’Shea, C. von Sonntag, Free Radical Mechanisms for the Destruction of Methyl tert-Butyl Ether (MTBE) via Advanced Oxidation Processes, Chem. Rev. 109: 1302-1345.
[87] J.R. Peller*, S.P. Mezyk*, W.J. Cooper, Bisphenol A Reactions with the Hydroxyl Radical: Diverse Pathways Determined between Deionized Water and Tertiary Treated Wastewater Solutions, Res. Chem Interm. 35: 21-34.
[86] W. Song*, W.J. Cooper, B.M. Peake, S.P. Mezyk, M.G. Nickelsen, K.E. O'Shea, Free-Radical-Induced Oxidative and Reductive Degradation of N,N'-diethyl-m-toluamide (DEET): Kinetic Studies and Degradation Pathways, Wat. Res., 43: 635-642.
[85] L. Martin*, B.J. Mincher, and S.P. Mezyk*, Free Radical Chemistry of Lactic Acid/Lactate in Aqueous Solution: Relevance to the TALSPEAK process, J. Phys. Chem. A, 113: 141-145.
[84] B.J. Mincher*, G. Modolo, S.P. Mezyk, Review Article: The Effects of Radiation Chemistry on Solvent Extractions: 1. Conditions in Acidic Solution and a Review of TBP Radiolysis, Solv. Ext. Ion Exch. , 27: 1-25.

[83] S.P. Mezyk*, N.A. Landsman, K.L. Swancutt, C.N. Bradford, C.R. Cox, K.P. Madden, J.J. Kiddle, T.J. Clore , Free Radical Chemistry of Advanced Oxidation Process Removal of Nitrosamines in Water American Chemical Society Symposium Series 995 (Disinfection By-Products in Drinking Water: Occurrence, Formation, Health Effects, and Control) Eds. T. Karanfil, S.W. Krasner, P. Westerhoff, Y. Xie, 319-333.
[82] B.J. Mincher*, Leigh Martin, and S.P. Mezyk*, Free Radical Chemistry of TBP: Reactions of Hydroxyl Radicals, Hydrogen Atoms, and NO3 Radicals in Aqueous Solution, J. Phys. Chem. A, 112: 6275-6380.
[81] F. L. Rosario-Ortiz,* S.P. Mezyk, D.F.R. Doud, S.A. Snyder, Quantitative Correlation of Absolute Hydroxyl Radical Rate Constants with Non-Isolated Effluent Organic Matter Bulk Properties in Water, Env. Sci. Technol., 42: 5924-5930.
[80] F. L. Rosario-Ortiz*, S. P. Mezyk, E. C. Wert, D. F. R. Doud, M. K. Singh, M. Xin, S. Baik, S. A. Snyder, Effect of Oxidation on the Molecular and Kinetic Properties of Effluent Organic Matter J. Adv. Oxidat. Technol. 11: 529-535.
[79] W.J. Cooper*, W. Song, M. Gonsior, D. Kalnina, B.M. Peake, S.P. Mezyk, Recent Advances in Structure and Reactivity of Dissolved Organic Matter in Natural Waters, Wat. Sci. Tech.: Water Supply – WSTWS, 8.6: 615-623.
[78] W.J. Cooper*, S.P. Mezyk, J. R. Peller, S.K. Cole, W. Song, B.J. Mincher, Studies in Radiation Chemistry: Application to Ozonation and other Advanced Oxidation Processes, Ozone Sci. Engineer., 30: 58-642.
[77] W. Song*, W.J. Cooper, S.P. Mezyk, J. Greaves, B.M. Peake, Free Radical Redox Reactions of beta-Blockers in Aqueous Solution, Env. Sci, Technol., 42: 1256-1261.
[76] E.J. Edwards, P.H. Wilson, M.H. Anderson, S.P. Mezyk, S.M. Pimblott, D.M. Bartels, An Apparatus for the Study of High Temperature Water Radiolysis in a Nuclear Reactor: Calibration of Dose in a Mixed Neutron/Gamma Radiation Field, Rev. Sci. Instrum., 78:12401.
[75] B.J. Mincher*, R.S. Herbst, R.D. Tillotson, S.P. Mezyk, gamma-Radiation Effects on the Performances of HCCD-PEG for Cs and Sr Extraction, Solv. Extr. Ion Exch., 25: 747-755.
[74] K.L. Swancutt, S.P. Mezyk*, J.J. Kiddle, Free Radical Redox Chemistry of Platinum-Containing Anti-Cancer Drugs, Rad. Res., 168: 423-427.
[73] S.P. Mezyk*, T. Neubauer, W.J. Cooper, J.R. Peller, Free Radical Induced Oxidative and Reductive Degradation of Sulfa Drugs in Water: Absolute Kinetics and Efficiencies of Hydroxyl Radical and Hydrated Electron Reaction, J. Phys. Chem A. 111: 9019-9024.
[72] N.A. Landsman, K.L. Swancutt, C.N. Bradford, C.R. Cox, J.J. Kiddle, S.P. Mezyk*, Free Radical Chemistry of Advanced Oxidation Process Removal of Nitrosamines in Water, Env. Sci. Technol., 41: 5818-5823.
[71] B.J. Mincher*, S.P. Mezyk, W.F. Bauer, G. Elias, C. Riddle, D.R. Peterman, FPEX gamma-Radiolysis in the Presence of Nitric Acid, Solv. Extr. Ion Exch., 25, 593-601.
[70] P. Westerhoff, S.P. Mezyk, W.J. Cooper, D. Minakata, Direct Measurement of Hydroxyl Radical Rate Constants with Suwannee River Fulvic Acid and Other Dissolved Organic Matter Isolates, Env. Sci. Tech. 41: 2640-4646.
[69] S.K. Cole, W.J. Cooper, R.V. Fox, P.R. Gardinali, S.P. Mezyk, B.J. Mincher and K.E. O’Shea, Free Radical Induced Degradation of Trichloronitromethane (Chloropicrin) by Oxidation-Reduction Reactions in Water, Env. Sci. Tech. 41: 4732-4737.
[68] R. G. Rodriguez, C. Stewart, S. P. Mezyk, H. Rollins, B. J. Mincher, B. V. Fox, B. Phillips, and R. Brey, Thermal Lensing in a Supercritical Water Medium, J. Phys. Chem. A. 111: 468-471.
Students in bold text