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CHE 4122 Chemical Process Control Credit Hours: 4
Studies dynamic modeling and control of chemical processes. Includes transfer function development, synthesis and tuning of feedback controllers, closed-loop stability analysis, frequency response and advanced control techniques.
Prerequisite: CHE 2102 and MTH 2201
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CHE 4131 Separation Processes Credit Hours: 3
Fundamental principles and design of separation processes; batch and continuous flow, concurrent and countercurrent cascade; plate and packed towers; distillation, absorption, extraction; distillation column design and optimization.
Prerequisite: CHE 3103 and CHE 3104 and CHE 3110
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CHE 4151 Chemical Engineering Reactor Design Credit Hours: 3
Introduces the modeling and design of chemical reactors including development of rate expressions for chemical reactions and analysis of experimental kinetic data. Emphasizes the modeling of ideal mixed-flow and plug-flow reactors.
Prerequisite: CHE 3101 and CHE 3103
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CHE 4181 Chemical Engineering Plant Design 1 Credit Hours: 3
Technical and economic analyses leading to the design of complete facilities for chemical production. Investigates process flow sheet and process integration, along with material and energy balances; process equipment selection and plant layout; use of computer-aided design software for process analysis; cost analysis; and a design report.
(Q)
Prerequisite: CHE 3103 and CHE 4131 Corequisite: CHE 4131
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CHE 4182 Chemical Engineering Plant Design 2 Credit Hours: 3
Technical and economic analyses leading to the design of complete facilities for chemical production. Process flow sheets and process integration are investigated, along with material and energy balances; process equipment selection and plant layout; use of computer-aided design software for process analysis; cost analysis; and a design report.
(Q)
Prerequisite: CHE 4181
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CHE 4230 Special Topics in Separation Processes and Unit Operations Credit Hours: 3
Continues CHE 4131 . Emphasizes the area of separation processes and unit operations. May include adsorption, drying, gas cleaning, cyclones, chromatography, membranes; particle filtration, microfiltration, ultrafiltration, reverse osmosis; heat tracing, mixing, cooling towers, gas compressors.
Prerequisite: CHE 3104 Corequisite: CHE 3104
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CHE 4240 Advanced Computational Methods for Engineering Applications Credit Hours: 3
Introduces numerical methods applied to engineering problems. Includes the use of selected mathematical software.
Prerequisite: CHE 2102 and MTH 2201
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CHE 4250 Introduction to Biochemical Engineering Credit Hours: 3
Introduces modeling and design of biochemical reactors, including development of rate expressions for biochemical (metabolic) reactions and cell growth. Separation and purification of reaction products; system optimization.
Majors in Chemical Engineering (7033). Minimum student level - senior
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CHE 4284 Industrial Safety Credit Hours: 3
Safety considerations in design and operation of industrial and manufacturing facilities; toxicology, fire and explosion hazards; and OSHA standards.
Majors in Chemical Engineering (7033). Minimum student level - junior
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CHE 4288 Petroleum Processing Credit Hours: 3
Focuses on the properties of crude oil and each of a refinery’s products, the details of each refinery operation, and the effects of economic considerations on each refinery operation.
Prerequisite: CHE 2102 and CHM 2002
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CHE 4291 Independent Study in Chemical Engineering 1 Credit Hours: 1 - 3
Individual projects under the direction of faculty member in the chemical engineering program. Projects include a literature review, project proposal, process design or research, and written and oral reports.
Minimum student level - senior
Requirement(s): Department head approval or senior standing
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CHE 4292 Independent Study in Chemical Engineering 2 Credit Hours: 1 - 3
Individual projects under the direction of faculty member in the chemical engineering program. Projects include a literature review, project proposal, process design or research, and written and oral reports.
Minimum student level - senior
Requirement(s): Department head approval or senior standing
Prerequisite: CHE 4291
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CHE 4560 Polymeric Materials Credit Hours: 3
General classes of polymers and their patterns of behavior; polymer synthesis and processing, polymer rheology and physical properties; and large-scale production problems.
Prerequisite: CHE 3260
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CHE 4563 Materials Characterization Lab Credit Hours: 3
Emphasizes characterization of nanomaterials using STM, AFM, SEM, TEM, confocal laser scanning microscopy, Raman spectroscopy/microscopy, pore size analysis and a variety of particle size distribution methods.
Minimum student level - junior
Prerequisite: (BME 3260 or CHE 3260 or CHM 2002 ), and (CHE 1091 or CHM 1091 )
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CHE 4567 Nanotechnology Credit Hours: 3
Studies materials synthesis-structure-function relationships. Emphasizes bulk and surface analytical techniques, catalyst synthesis methods, nanoporous materials, nanoparticles, nanocomposites, carbon nanotubes, nanowires, molecular self-assembly, molecular recognition, biologically inspired materials and nanomedicine.
Minimum student level - junior
Requirement(s): Instructor approval
Prerequisite: BME 3260 or CHE 3260 or CHM 2002
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CHE 4569 Biomaterials Tissue Engineering Credit Hours: 3
Introduces the principles of materials science and cell biology underlying the design of medical implants, artificial organs and matrices for tissue engineering.
Minimum student level - junior
Requirement(s): Instructor approval
Prerequisite: BME 3260 or CHE 3260 or CHM 2002
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CHE 4591 Special Topics in Chemical Engineering Credit Hours: 3
Studies in depth a specialized area of chemical engineering. Subject matter depends on the expertise of the instructor. Topics announced before each offering.
Requirement(s): Instructor approval
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CHE 4592 Special Topics in Chemical Engineering Credit Hours: 3
Studies in depth a specialized area of chemical engineering. Subject matter depends on the expertise of the instructor. Topics announced before each offering.
Requirement(s): Instructor approval
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CHE 5100 Chemical Engineering Seminar Credit Hours: 0
Weekly seminar topics on chemical engineering research and practice. Presentations are made by students, faculty and visitors.
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CHE 5101 Transport Phenomena 1 Credit Hours: 3
Fundamental principles of momentum, heat and mass transfer, and their application to chemical systems. Includes derivation and analysis of the Navier-Stokes equations, energy equations and equations for mass transport; flows at small Reynolds number and Stokes Law; the method of matched asymptotic expansions; and boundary-layer theory. Also includes turbulence and multiphase phenomena.
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CHE 5110 Equilibrium Thermodynamics Credit Hours: 3
Advanced topics in phase and chemical equilibria; relationships between equilibrium properties and molecular-based theories of solutions; and fugacity coefficients, activity coefficients, phase composition.
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CHE 5120 Process Control Credit Hours: 3
Analysis, design, stability and sensitivity; and optimization and transient response of staged, continuous and batch operations. Emphasizes common mathematical and physical foundations, and automatic control systems.
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CHE 5150 Chemical Reactor Design Credit Hours: 3
Design of nonideal reactors; unsteady-state operation and stability analysis; multiphase reactors; and heat, mass and momentum transfer in reacting systems.
Recommended: Background knowledge equivalent to CHE 4151 Chemical Engineering Reactor Design
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CHE 5230 Separation Processes Credit Hours: 3
Analysis of mass transfer in binary and multicomponent systems. Mathematical modeling of adsorption, extraction, reverse osmosis and other selected processes.
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CHE 5240 Electrochemical Engineering Credit Hours: 3
Overviews basic electrochemistry. Investigates the application of fundamental principles of thermodynamics, kinetics and transport to electrochemical systems and their integration with current/potential distributions to solve complex electrochemical engineering problems. Discusses current and potential future electrochemical applications.
Requirement(s): Instructor approval
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CHE 5250 Hydrogen Technology Credit Hours: 3
Presents the fundamental knowledge of hydrogen and the current and potential future development of hydrogen science and technology. Investigates the use of hydrogen as a fuel, and its properties, methods of production and storage. Discusses hydrogen technology applications.
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CHE 5252 Catalytic Reactor Design Credit Hours: 3
Covers modeling and design of reaction systems for catalytic and other surface reactions. Includes reactor stability, transient operation and industrial applications
Major in Chemical Engineering (7033)
Prerequisite: CHE 4151
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CHE 5288 Petroleum Processing Credit Hours: 3
Focuses on the properties of crude oil and each of a refinery’s products. Includes details on each of the refinery’s operations and how economics is changing the importance of each of a refinery’s process units.
Requirement(s): Instructor approval
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CHE 5291 Special Topics in Chemical Engineering Credit Hours: 3
Studies in depth a specialized area of chemical engineering. Subject matter depends on the expertise of the instructor. Topics announced before registration.
Requirement(s): Instructor approval
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CHE 5292 Special Topics in Chemical Engineering Credit Hours: 3
Studies in depth a specialized area of chemical engineering. Subject matter depends on the expertise of the instructor. Topics announced before registration.
Requirement(s): Instructor approval
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CHE 5300 Biomaterials Credit Hours: 3
Covers the fundamentals of biomaterials, biomaterial modification strategies, scaffold fabrication and characterization, and host response to biomaterials post implantation. Discusses development of biomaterials for selected tissues/organs.
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CHE 5567 Nanotechnology Credit Hours: 3
Understanding and development of materials synthesis-structure-function relationships, emphasizing bulk and surface analytical techniques, catalyst synthesis methods, nanoporous materials, nanoparticles, nanocomposites, carbon nanotubes, nanowires, molecular self-assembly and molecular recognition, biologically inspired materials and nanomedicine.
Recommended: Background knowledge equivalent to BME 3260 Biomaterials or CHE 3260 Materials Science and Engineering or CHM 2002 Organic Chemistry 2
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CHE 5571 Physical/Chemical Processes for Water Treatment Credit Hours: 3
Modeling and design of physical and chemical processes for water treatment: coagulation, sedimentation, filtration, chemical precipitation, adsorption, ion exchange, reverse osmosis, chemical oxidation.
Recommended: Background knowledge equivalent to CHE 3170 Introduction to Environmental Engineering
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CHE 5572 Biological Processes for Water Treatment Credit Hours: 3
Modeling and design of biological processes used for water and wastewater treatment: aerobic and anaerobic treatment, sludge digestion, nutrient removal and disinfection.
Recommended: Background knowledge equivalent to CHE 3170 Introduction to Environmental Engineering
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CHE 5899 Final Semester Thesis Credit Hours: 0 - 2
Variable registration for thesis completion after satisfaction of minimum registration requirements.
Requirement(s): Approval by Office of Graduate Programs and accepted petition to graduate
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CHE 5998 Graduate Project in Chemical Engineering Credit Hours: 1 - 3
Student works with faculty members in chemical engineering to define and execute a project in the field of chemical engineering.
Requirement(s): Department head approval
May be repeated for credit
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CHE 5999 Thesis Credit Hours: 3 - 6
Individual research under the direction of a member of the graduate faculty on a selected topic. Six hours of thesis are required for the master’s degree.
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CHE 6899 Final Semester Dissertation in Chemical Engineering Credit Hours: 0 - 2
Variable registration for dissertation completion after satisfaction of minimum registration requirements.
Requirement(s): Approval by Office of Graduate Programs and accepted candidacy
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CHE 6990 Research in Chemical Engineering Credit Hours: 1 - 6
Independent research under the direction of a member of the graduate faculty before admission to doctoral candidacy.
Requirement(s): Doctoral standing
May be repeated for a maximum of nine credits
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CHE 6999 Dissertation in Chemical Engineering Credit Hours: 3 - 6
Preparation of the doctoral dissertation under the direction of the student’s doctoral committee.
Requirement(s): Admission to candidacy for the doctoral degree
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Chemistry |
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CHM 0002 Final Program Examination Credit Hours: 0
Requires registration in order to sit for the final program examination.
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CHM 0003 Final Program Examination 2 Credit Hours: 0
Requires registration in order to sit for the final program examination.
Prerequisite: CHM 0002 Corequisite: CHM 0002
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CHM 0004 Final Program Examination 3 Credit Hours: 0
Requires registration in order to sit for the final program examination.
Prerequisite: CHM 0003 Corequisite: CHM 0003
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CHM 1091 Nanoscience/Nanotechnology Laboratory Credit Hours: 1
Introduces science/engineering freshmen interested in careers in nanoscience research/nanotechnology to techniques of nanomaterial fabrication by thin film deposition and chemical synthesis, and sample characterization techniques like atomic force and scanning tunneling microscopes.
Prerequisite: CHM 1101
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CHM 1100 Introduction to Chemistry Credit Hours: 3
Introduces the basic concepts of modern chemistry. Provides an adequate chemistry background for the successful completion of CHM 1101 .
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CHM 1102 General Chemistry 2 Credit Hours: 4
Continues CHM 1101 . Covers acids and bases, thermodynamics, electrochemistry, kinetics, descriptive chemistry of metals and nonmetals, coordination chemistry, nuclear chemistry. Introduces organic chemistry. Includes lab component.
Prerequisite: CHM 1101 and (MTH 1011 or MTH 1701 or MTH 1000 or MTH 1001 or MTH 1010 )
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CHM 2001 Organic Chemistry 1 Credit Hours: 3
Studies the fundamentals of structure and reaction mechanisms. Includes a review of bonding, preparations and reactions of organic substances.
Prerequisite: CHM 1102
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CHM 2002 Organic Chemistry 2 Credit Hours: 3
Studies the fundamentals of structure and reaction mechanisms. Includes a review of bonding, preparations and reactions of organic substances.
Prerequisite: CHM 2001
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CHM 2011 Organic Chemistry Laboratory 1 Credit Hours: 2
Introduces organic chemistry techniques for lab operations. Includes preparation, reaction and analysis of organic compounds.
Prerequisite: CHM 2001 Corequisite: CHM 2001
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CHM 2012 Organic Chemistry Laboratory 2 Credit Hours: 2
Continues CHM 2011 . Introduces organic chemistry techniques for lab operations. Includes preparation, reaction and analysis of organic compounds.
Prerequisite: CHM 2002 and CHM 2011 Corequisite: CHM 2002
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CHM 3001 Physical Chemistry 1 Credit Hours: 3
Includes fundamental principles of chemical phenomena; thermodynamics, equilibria and states of matter; and chemical kinetics.
Prerequisite: CHM 2001 and MTH 2001 and PHY 2002 Corequisite: PHY 2002
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CHM 3002 Physical Chemistry 2 Credit Hours: 3
Continues CHM 3001 . Includes chemical dynamics, quantum mechanics, atomic structures, chemical bonding and spectroscopy.
Prerequisite: CHM 3001
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CHM 3011 Physical Chemistry Laboratory 1 Credit Hours: 2
Experiments illustrating the principles and techniques of physical chemistry studied in CHM 3001 .
Prerequisite: CHM 2011 and CHM 3001 Corequisite: CHM 3001
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CHM 3012 Physical Chemistry Laboratory 2 Credit Hours: 2
Experiments illustrating the principles and techniques of physical chemistry studied in CHM 3002 .
(CL)
Prerequisite: CHM 3002 and CHM 3011 Corequisite: CHM 3002
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CHM 3301 Analytical Chemistry 1 Credit Hours: 3
Focuses on the principles of modern analytical methods. Includes chemical separation and quantitative measurements, important equilibrium considerations and the treatment of experimental data.
Prerequisite: CHM 1102
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CHM 3302 Analytical Chemistry 2: Instrumentation Credit Hours: 3
Principles of modern chemical instrumentation, focusing on spectroscopy.
Prerequisite: CHM 2002 and CHM 3001 and CHM 3301
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CHM 3311 Analytical Chemistry Laboratory 1 Credit Hours: 2
Students conduct experiments in quantitative analytical techniques.
Prerequisite: CHM 3301 Corequisite: CHM 3301
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CHM 3312 Analytical Chemistry 2: Instrumentation Laboratory Credit Hours: 2
Quantitative and instrumental analysis techniques to accompany CHM 3302 .
Prerequisite: CHM 3311 and CHM 3302 Corequisite: CHM 3302
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CHM 4001 Inorganic Chemistry 1 Credit Hours: 3
Covers basic theoretical concepts of inorganic chemistry as related to elementary structure and bonding, stressing representative elements; and donor-acceptor concepts, symmetry and group theory. Introduces transition metal chemistry.
Prerequisite: CHM 3002
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CHM 4002 Advanced Inorganic Chemistry Credit Hours: 3
Includes structure and stability in coordination chemistry, spectroscopy of transition metal compounds; descriptive transition metal chemistry and reactions of metal compounds; and lanthanides and actinides. Introduces bioinorganic chemistry.
Prerequisite: CHM 4001
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CHM 4111 Advanced Physical Chemistry Credit Hours: 3
Selected topics in physical chemistry. Includes statistical mechanics and molecular modeling.
Prerequisite: CHM 3002
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CHM 4222 Environmental Chemistry Credit Hours: 3
Applies basic principles of inorganic and organic chemistry to natural systems. Includes applications of terrestrial, aquatic and atmospheric chemistry.
Prerequisite: CHM 2001
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CHM 4304 Advanced Analytical Chemistry Credit Hours: 3
Includes electrode processes, thermodynamic and kinetic considerations, electrochemical methods and recent research articles.
Prerequisite: CHM 3002 and CHM 3302
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CHM 4500 Advanced Organic Chemistry Credit Hours: 3
Fundamentals of physical organic chemistry. Includes stereochemistry and structure, methods of mechanistic elucidation and selected mechanistic descriptions.
Prerequisite: CHM 2002 and CHM 3002
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CHM 4503 Organic Synthesis Credit Hours: 3
Studies reagents, their capabilities and limitations, and the use of reagents in the design of an organic synthesis. Meets with CHM 5503 .
Prerequisite: CHM 2002 and CHM 3001
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CHM 4507 Natural Products Credit Hours: 3
Surveys organic natural products, emphasizing marine organisms. Outlines major structural families and their sources. Includes the role of natural products in the environment, approaches to their analysis and structure elucidation, and biosynthesis of major classes of secondary metabolitesis. Meets with CHM 5507 .
Prerequisite: CHM 2002
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CHM 4508 Bioorganic Chemistry Credit Hours: 3
Includes structure–function interrelationships, the role of cofactors, origins of efficiency and selectivity, recognition phenomena and artificial enzymes. Meets with CHM 5508 .
Prerequisite: CHM 2002
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CHM 4520 Medicinal Chemistry Credit Hours: 3
Studies the chemical nature of physiological mediators, the hormones that mediate life processes. Includes isolation, structure determination and synthesis of the mediators. Preparation of inhibitors or activators of enzymes that work on those mediators or agonists or antagonists to the mediators to correct imbalances that cause disease. Meets with CHM 5520 .
Prerequisite: CHM 2002 and CHM 3001
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CHM 4550 Polymer Chemistry Credit Hours: 3
Introduces classes of polymers, their general patterns of behavior, polymer synthesis, physics of the solid state, polymer characterization, polymer rheology and polymer processing.
Prerequisite: CHM 3002
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CHM 4611 Advanced Laboratory Techniques 1 Credit Hours: 2
Studies advanced lab techniques. Emphasizes analytical and inorganic methodology.
Majors in Chemistry (7031, 7034, 7036). Minimum student level - senior
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CHM 4700 Physical Biochemistry Credit Hours: 1
Emphasizes the physical aspects of biochemistry. Includes enzyme mechanism, kinetics, inhibition, thermodynamics and binding constraints. Explores molecular modeling of proteins and protein folding, highlighting chemical interactions. Also includes an examination of protein-DNA binding interactions.
Prerequisite: CHM 3001 Corequisite: BIO 4010
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CHM 4800 Undergraduate Research 1 Credit Hours: 3
Senior research conducted under the direct supervision of a chemistry department faculty member.
(Q)
Requirement(s): Department head approval
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CHM 4801 Undergraduate Research 2 Credit Hours: 3
Senior research conducted under the direct supervision of a chemistry department faculty member.
Requirement(s): Department head approval
Prerequisite: CHM 4800
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CHM 4900 Chemistry Seminar Credit Hours: 0
Presents topics of current chemical research interest by students, faculty and distinguished visiting scientists.
May be repeated
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CHM 4901 Senior Research Seminar Credit Hours: 1
Students present results of their senior research projects.
(Q)
Corequisite: CHM 4911
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CHM 4910 Senior Thesis in Chemistry 1 Credit Hours: 3
Research conducted under the direction of a chemistry department faculty member. Includes the preparation and department approval of a written senior thesis during the second semester of study.
(Q)
Majors in Research Chemistry (7034). Minimum student level - senior
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CHM 4911 Senior Thesis in Chemistry 2 Credit Hours: 3
Research conducted under the direction of a chemistry department faculty member. Includes the preparation and department approval of a written senior thesis.
Majors in Research Chemistry (7034). Minimum student level - senior
Prerequisite: CHM 4910
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CHM 5002 Advanced Inorganic Chemistry Credit Hours: 3
Includes structure and stability in coordination chemistry, spectroscopy of transition metal compounds; descriptive transition metal chemistry and reactions of metal compounds; and lanthanides and actinides. Introduces bioinorganic chemistry.
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CHM 5018 Special Topics in Inorganic Chemistry Credit Hours: 3
Covers advanced topics in inorganic chemistry. May include organometallic compounds, compounds of the less familiar elements, ligand field theory and advanced concepts in coordination chemistry.
Prerequisite: CHM 5002
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CHM 5095 Chemical Research Projects Credit Hours: 3
Research projects under the direction of a member of the chemistry faculty in a selected area of chemistry.
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CHM 5111 Advanced Physical Chemistry Credit Hours: 3
Selected topics in physical chemistry. Includes statistical mechanics and molecular modeling.
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CHM 5112 Special Topics in Physical Chemistry Credit Hours: 3
Selected topics in physical chemistry.
Prerequisite: CHM 5111
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CHM 5201 Green Chemistry Credit Hours: 3
Extends and reinforces the basic knowledge introduced in undergraduate chemistry courses. Emphasizes chemistry for a sustainable environment, current clean chemical technology and waste minimization. Introduces new areas such as process design and solvent alternatives. Teaches recognition of the impact of green chemistry on daily life.
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CHM 5304 Advanced Analytical Chemistry Credit Hours: 3
Includes electrode processes, thermodynamic and kinetic considerations, electrochemical methods and recent research articles.
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CHM 5305 Special Topics in Analytical Chemistry Credit Hours: 3
Includes advanced topics in analytical chemistry. Emphasizes separation techniques (chromatography) and electroanalytical methods (voltammetry).
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CHM 5500 Advanced Organic Chemistry Credit Hours: 3
Fundamentals of physical organic chemistry. Includes stereochemistry and structure, methods of mechanistic elucidation and selected mechanistic descriptions.
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CHM 5501 Interpretation of Chemical Spectra Credit Hours: 3
Studies modern spectroscopic methods in organic chemistry. Includes the interpretation of 1D and 2D spectra obtained by ultraviolet, infrared, proton and carbon-13 nuclear magnetic resonance and mass-spectral techniques.
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CHM 5503 Organic Synthesis Credit Hours: 3
Studies reagents, their capabilities and limitations, and the use of reagents in the design of an organic synthesis.
Prerequisite: CHM 5500
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CHM 5507 Natural Products Credit Hours: 3
Surveys organic natural products, emphasizing marine organisms. Outlines major structural families and their sources. Includes the role of natural products in the environment, approaches to their analysis and structure elucidation, and biosynthesis of major classes of secondary metabolitesis.
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CHM 5508 Bioorganic Chemistry Credit Hours: 3
Includes structure-function interrelationships, the role of cofactors, origins of efficiency and selectivity, recognition phenomena and artificial enzymes.
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CHM 5520 Medicinal Chemistry Credit Hours: 3
Studies the chemical nature of physiological mediators, the hormones that mediate life processes. Includes isolation, structure determination and synthesis of the mediators. Preparation of inhibitors or activators of enzymes that work on those mediators or agonists or antagonists to the mediators to correct imbalances that cause disease.
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CHM 5550 Polymer Chemistry Credit Hours: 3
Introduces classes of polymers, their general patterns of behavior, polymer synthesis, physics of the solid state, polymer characterization, polymer rheology and polymer processing.
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CHM 5899 Final Semester Thesis Credit Hours: 0 - 2
Variable registration for thesis completion after satisfaction of minimum registration requirements.
Requirement(s): Approval by Office of Graduate Programs and accepted petition to graduate
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CHM 5900 Chemistry Graduate Seminar Credit Hours: 0
Seminars on current research in chemistry.
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CHM 5901 Chemistry Thesis Seminar Credit Hours: 1
Students present results of their thesis research.
Requirement(s): Must be in final semester of thesis research
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CHM 5999 Thesis Credit Hours: 3 - 6
Individual research for the master’s degree under the direction of a member of the graduate faculty in chemistry.
Majors in Biochemistry or Chemistry (7028, 7031, 7034, 7036)
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CHM 6095 Chemical Research Credit Hours: 1 - 6
Research under the guidance of the chemistry faculty. Area chosen may lead to a research proposal for dissertation work.
Majors in Chemistry (7031, 7034, 7036)
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