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Course Criteria
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3.00 Credits
Theoretical methods and software used in computational chemistry; quantum chemical methods including molecular orbital methods and density functional theory; classical simulation techniques including potential energy functions, molecular mechanics, molecular dynamics and Monte Carlo. Advanced topics vary with interests of students. Preq: Graduate standing.
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3.00 Credits
Basic concepts of NMR spectroscopy with application to organic, inorganic, physical and analytical chemistry; design of spectroscopic experiments and interpretation of spectra; modern techniques including multipulse, multinuclear and two-dimensional methods. Offered fall semester only. Preq: Graduate standing.
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3.00 Credits
Chemical and physical aspects of actinide metals and compounds (including properties, structure and bonding, reactions, kinetics, thermodynamics), coordination and solution chemistry, behavior and speciation in the environment, separation and purification, chemistry of the nuclear fuel cycle and waste treatment and related topics; fundamental concepts, history and recent developments. Preq: Consent of instructor. May also be offered as EES 8420.
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1.00 Credits
Students and faculty review current topics in chemistry. May be taken more than one semester.
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1.00 Credits
Off-campus speakers are invited to present aspects of their research to the chemistry faculty and graduate students every week during the academic year. Some of these talks may form the basis for cumulative examination questions. Attendance is mandatory. May be taken more than one semester. Students are expected to have earned a bachelor's degree in an approved major before enrolling in this course.
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3.00 Credits
Fundamentals of "smart" polymers design, synthesis and characterization for materials scientists, chemists, physicists and engineers. Provides a comprehensive overview of stimuli-responsive materials design, including relevant synthetic and characterization methods, new classes of materials in the context of broad range engineering applications, and laws governing molecular and macroscopic behavior of materials. May also be offered as MSE 8550.
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3.00 Credits
Fundamentals of polymer chemistry. Chemistry and synthesis of monomers and polymers in relation to thermodynamics, kinetics and mechanisms of polymerization reactions emphasizing fiber-forming polymers, plastics and composite matrix materials. May also be offered as MSE 8580.
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3.00 Credits
Chemical structure and properties of polymers. Polymer solution properties, the viscoelastic state and the crystalline morphology of polymeric materials. Current theories for describing polymer thermal transitions, molecular weight, molecular weight distributions and transport phenomena in polymeric systems, as well as interfacial phenomena. May also be offered as MSE 8590.
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3.00 Credits
Covers fundamentals of chemical biology by examining the structure, function, bonding and reactivity of nucleic acids, proteins, carbohydrates and lipids. Topics are covered from the perspective of organic, inorganic, analytic and physical chemistry. Credit will be given for only one of CH 8600 or BCHM 6310. Students are expected to have completed undergraduate coursework in organic, inorganic, physical and analytic chemistry; or to have obtained consent of instructor before enrolling in this course.
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1.00 Credits
Master's Thesis Research
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