Stephen Mezyk
Professor
Courses Taught at É«ÖÐÉ«
- CHEM 111B: General Chemistry (kinetics, equilibria, thermodynamics, electrochemistry, and nuclear chemistry)
- CHEM 112B: Advanced General Chemistry (kinetics, equilibria, thermodynamics, electrochemistry, and nuclear chemistry)
- CHEM 251: Quantitative Analysis (quantitative analysis of real-world samples, electrochemistry, spectroscopy, GC/MS techniques)
- CHEM 371B: Physical Chemistry: Quantum Mechanics and Spectroscopy (calculus-based quantum mechanics, spectroscopy, and statistical mechanics)
- CHEM 373: Physical Chemistry Laboratory
- CHEM 377A: Fundamentals of Physical Chemistry (thermodynamics applied to biological systems)
- CHEM 377B: Fundamentals of Physical Chemistry (kinetics, spectroscopy, and quantum mechanics with applications to biochemical systems)
- CHEM 379: Physical Chemistry for the Biosciences
- CHEM 574: Kinetics and Dynamics (graduate course in physical chemistry; kinetics, kinetic theory, computational chemistry)
- GEOL 191: Air and Water Pollution (waste, risks, chemical contaminants, remediation strategies)
-
NSCI 296A: Introduction to Biomedical Research Methods (fundamental basics for new research students)
Research Interests
Nuclear Chemistry
- Free-radical-induced degradation of metal ion-extraction ligands and solvents used in nuclear chemistry
- Radical kinetics, plus degradation and extraction efficiency studies of the steady-state radiolysis of organic ligand systems used for transuranic ion extractions for waste fuel recycling performed in both the aqueous and organic phases.
- Complexation kinetics of lanthanides and actinide ions under process conditions
- Stopped-flow kinetic and thermodynamic measurements of f-element ion complexations by organic ligands in both aqueous and organic phases.
- Thermal and radiation-induced actinide chemistry in higher oxidation states:
- Kinetic modelling of thermal and radiation-induced chemistry of the higher oxidation states of actinides in the acidic aqueous phase.
Wastewater Remediation Chemistry
- Free radical kinetic and mechanistic chemistry for remediation of wastewaters for direct potable reuse
- Determining rate constants and mechanisms for reactions of multiple reducing and oxidizing radicals with chemical contaminants in various quality waters
- Kinetic modelling of Advanced Oxidation Process treatment of contaminated wastewater
- Radical-based kinetics and efficiencies for removal of pharmaceuticals, drugs and their metabolites, and personal care products from drinking and wastewaters
Chemical Carcinogenesis Chemistry
- Mechanisms of redox chemistry involved in chemical carcinogenesis
- Free-radical production kinetics and mechanisms in the redox chemistry of carcinogens
- Metal ion-ligand biochemical systems for use in cancer treatment therapies
- Radical reaction induced redox chemistry of complexed metal ions in aqueous solution under physiological conditions
Nanoplastics Chemistry
- Free radical based removal of plastic waste from water systems
- Determining rate constants and reaction mechanisms for reactions of reducing and oxidizing radicals with plastics and components in various quality waters
Selected Publications
* indicates students
- Wang, Y.; Mezyk, S.P.; McLachlan, J.R.; Grimes, T.S.; Zalupski, P.R.; O’Bryan, H.M.T.; Cook, A.R., Abergel, R.J.; Horne, G.P., Radiolytic Evaluation of 3,4,3-LI(1,2-HOPO) in Aqueous Solutions. J. Phys. Chem. B, 127, 3931-3938, (2023).
- Fennell, B.D.*; Mezyk, S.P.; McKay, G., Critical Review of UV-Advanced Reduction Processes for the Treatment of Contaminants in Water. American Chemical Society Environmental Au 2, 178-205, (2022).
- Peller, J.R.; Mezyk, S.P.; Shidler, S.; Castleman, J.*; Kaiser, S.*; Faulkner, R.F.*; Pilgrim, C.D.; Wilson, A.*; Martens, S.*; Horne, G.P., Facile nanoplastics formation from macro and microplastics in aqueous media. Env. Pollut., 120171, 2022.
- Celis-Barros, C.; Pilgrim, C.; Cook, A.; Mezyk, S.P.; Grimes, T.; Horne, G.P., Influence of Uranyl Complexation on the Reaction Kinetics of the Dodecane Radical Cation with Used Nuclear Fuel Extraction Ligands (TBP, DEHBA, and DEHiBA). Phys. Chem. Chem. Phys., 23, 24589-24597, (2021).
- Toigawa, T.; Peterman, D.R.; Meeker, D. S.*; Grimes, T.S.; Peter R. Zalupski, P.R.; Mezyk, S.P.; Cook, A.R.; Yamashita, S.; Kumagai, Y.; Matsumura, T.; Horne, G.P., Radiation-Induced Effects on the Extraction Properties of Hexa-n-octylnitrilo-triacetamide (HONTA) Complexes of Americium and Europium. Physical Chemistry Chemical Physics, 23, 1343-1351, (2021).
- Horne, G.P.*; Zalupski, P.R.*; Daubaras, D.L.; Rae, C.; Mezyk, S.P.; Mincher, B.J., Radiolytic Degradation of Formic Acid and Formate in Aqueous Solution – Modeling the Final Stages of Organic Mineralization Under Advanced Oxidation Process Conditions. Water Research, 186, 116314, (2020).
Education History
- Ph.D., Chemistry, University of Melbourne, Australia, 1989
Work Experience
- 08/2009 - present: Professor, Department of Chemistry and Biochemistry, CSU Long Beach, Long Beach, CA
- 05/1986 - present: Visiting Scholar Appointment, Radiation Laboratory, Notre Dame, IN
- 06/2002 - present: Visiting Appointment, Brookhaven National Laboratory, Long Island, NY
- 08/2017 - present: Visiting Scientist, Idaho National Laboratory, Idaho Falls, ID