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CHEE 6321 - Nano Design & Fabrication Credit Hours: 3.0 (Lecture Contact Hours:3; Lab Contact Hours:0)
Prerequisite: ECE 6320 or CHEE 6320 or MECE 6320 or consent of instructor.
Design and fabrication at the nanoscale. Effects of nanoscale phenomena on device scaling; technological advantages and challenges. Design, fabrication, metrology, and devices integration at nanoscale.
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CHEE 6322 - Topics in Colloid and Interfacial Science Credit Hours: 3.0 (Lecture Contact Hours:3; Lab Contact Hours:0)
Prerequisite: consent of instructor.
This interdisciplinary course discusses the basics of colloidal interactions, dynamics, self-assembly, and characterization techniques for a wide range of materials and their applications, spanning areas of biotechnology, energy and nanotechnology.
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CHEE 6323 - Fundamentals of Tissue Engineering Credit Hours: 3.0 (Lecture Contact Hours:3; Lab Contact Hours:0)
Prerequisite: CHEE 3300, CHEE 3334 and CHEE 3369 and graduate standing, or consent of instructor.
Fundamental concepts in tissue engineering and cell biology. Tissue structure, function, and replication.
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CHEE 6327 - Experimental Methods in Chemical Engineering Credit Hours: 3.0 (Lecture Contact Hours:3; Lab Contact Hours:0)
Prerequisite: graduate standing and/or consent of instructor.
Experimental methods used in chemical and biomolecular research such as error analysis, experimental design, microscopy (optical, electron, atomic force), scattering, spectroscopic analysis, bioanalysis, electro chemical analysis, and x-ray diffraction.
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CHEE 6330 - Foundations of Mathematical Methods in Chemical Engineering Credit Hours: 3.0 (Lecture Contact Hours:3; Lab Contact Hours:0)
Prerequisite: Consent of instructor.
Introductory graduate level mathematical methods used in linear system analysis, solution of ordinary and partial differential equations, and model parameter estimation for various problems encountered in chemical engineering.
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CHEE 6331 - Mathematical Methods in Chemical Engineering Credit Hours: 3.0 (Lecture Contact Hours:3; Lab Contact Hours:0)
Prerequisite: approval of department.
Linear methods applied to chemical engineering, matrices, transforms, series, complex variable methods, boundary layer problems.
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CHEE 6332 - Mathematical Methods in Chemical Engineering II Credit Hours: 3.0 (Lecture Contact Hours:3; Lab Contact Hours:0)
Prerequisite: CHEE 6331 or consent of instructor.
Solution of initial value problems, linear and non-linear equations. Solution of boundary value problems. Solutions of elliptic, parabolic and hyperbolic partial differential equations using finite-difference and finite element techniques.
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CHEE 6333 - Transport Processes Credit Hours: 3.0 (Lecture Contact Hours:3; Lab Contact Hours:0)
Prerequisite: CHEE 3369.
Advanced principles of fluid mechanics, heat and mass transfer with application to problems in research and design. Emphasis on unified point of view to transport processes in laminar and turbulent flow situations.
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CHEE 6335 - Classical and Statistical Thermodynamics Credit Hours: 3.0 (Lecture Contact Hours:3; Lab Contact Hours:0)
Prerequisite: CHEE 3460.
Advanced methods. Advanced principles of chemical engineering thermodynamics. Introduction to molecular and statistical thermodynamics and their ability to predict bulk thermodynamic properties and characteristics of chemical engineering systems.
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CHEE 6337 - Advanced Reactor Engineering Credit Hours: 3.0 (Lecture Contact Hours:3; Lab Contact Hours:0)
Prerequisite: undergraduate kinetics or reactor design course.
Introduction to modern concepts and techniques of chemical reactor analysis and design.
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CHEE 6360 - Biomolecular Engr Fundamentals Credit Hours: 3.0 (Lecture Contact Hours:3; Lab Contact Hours:0)
Prerequisite: Graduate standing or consent of instructor
Analysis and design fundamentals for biomolecular processes.
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CHEE 6365 - Fundamentals of Catalysis Credit Hours: 3.0 (Lecture Contact Hours:3; Lab Contact Hours:0)
Prerequisite: CHEE 4367 or equivalent.
Theories and experimental procedures in modern heterogeneous catalysis, catalyst preparation and properties, absorption, surface mechanisms, catalyst design, and catalytic processes.
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CHEE 6367 - Advanced Process Control Credit Hours: 3.0 (Lecture Contact Hours:3; Lab Contact Hours:0)
Prerequisite: CHEE 3367 or equivalent or consent of instructor.
Application of high-speed computers in the control of chemical processes, reactors, and units.
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CHEE 6368 - Chemical Process Economics I Credit Hours: 3.0 (Lecture Contact Hours:3; Lab Contact Hours:0)
Prerequisite: graduate standing in chemical engineering.
Managerial economics of chemical processes and products; development of decision-making methods using chemical industry examples.
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CHEE 6369 - Chemical Process Economics II Credit Hours: 3.0 (Lecture Contact Hours:3; Lab Contact Hours:0)
Prerequisite: CHEE 6368 .
Study of profitability, process comparison, and risk analysis from an advanced viewpoint, followed by extensive case history studies of managerial economics in process industries.
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CHEE 6371 - Pollution Control Engineering Credit Hours: 3.0 (Lecture Contact Hours:3; Lab Contact Hours:0)
Prerequisite: Credit for or concurrent enrollment in CHEE 4321 and CHEE 4367 or equivalent.
A general survey of problems and remedies with the earth as an environmentally closed system. Limitations of absorption and self-cleaning of the terrasphere, hydrosphere and atmosphere and their interaction and interrelationship.
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CHEE 6373 - Environmental Remediation Credit Hours: 3.0 (Lecture Contact Hours:3; Lab Contact Hours:0)
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CHEE 6375 - Chemical Processing for Microelectronics Credit Hours: 3.0 (Lecture Contact Hours:3; Lab Contact Hours:0)
Prerequisite: CHEE 4367 or equivalent or consent of instructor.
Chemical engineering principles applied to micro-electronic device fabrication and processing.
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CHEE 6377 - Introduction to Polymer Science Credit Hours: 3.0 (Lecture Contact Hours:3; Lab Contact Hours:0)
Prerequisite: consent of instructor.
Introduction to the synthesis, characterization, physical properties and processing of polymeric materials. The course thematically revolves around methods to measure, characterize and tailor structure, processing, property correlations for polymeric materials.
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CHEE 6379 - Safety and Reliability Credit Hours: 3.0 (Lecture Contact Hours:3; Lab Contact Hours:0)
Prerequisite: CHEE 3363, CHEE 3369 and CHEE 3367.
An overview of risk, safeguards and hazards associated with chemical process engineering. Layers of protection, hazard identification, source term models, toxic release and dispersion models, fires and explosions, probabilistic analysis, fault tree analysis, designs to prevent accidents, safety-instrumented systems, and safety-related standards and regulations.
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CHEE 6380 - Biochemical Separations Credit Hours: 3.0 (Lecture Contact Hours:3; Lab Contact Hours:0)
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CHEE 6383 - Advanced Unit Operations Credit Hours: 3.0 (Lecture Contact Hours:3; Lab Contact Hours:0)
Prerequisite: CHEE 3462.
Property prediction of multi-component fluids. Advanced principles of heat exchanger design, multi-component fractionation, absorption, stripping, and extraction from a unified point of view.
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CHEE 6384 - Petrochemical Processes Credit Hours: 3.0 (Lecture Contact Hours:3; Lab Contact Hours:0)
Prerequisite: CHEE 3332 and graduate standing or consent of instructor.
Petrochemical industry in terms of feed stocks, products, companies and trends. Technology, markets, and economics for the major building blocks and derivatives.
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CHEE 6386 - Air Pollution Problems and Control Credit Hours: 3.0 (Lecture Contact Hours:3; Lab Contact Hours:0)
Air pollutant identification and control technology; estimation of pollutant transport, dispersion, and conversion; computer application for design of control units.
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CHEE 6388 - Catalytic Processes Credit Hours: 3.0 (Lecture Contact Hours:3; Lab Contact Hours:0)
Prerequisite: CHEE 4367 or consent of instructor.
Process-oriented survey of catalytic technology; catalyst selection and design; catalytic processes, engineering, and economics in the petroleum, chemical, and pollution control industries.
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CHEE 6389 - Chemical Engineering Project Credit Hours: 3.0 (; )
Prerequisite: approval of instructor.
Industrial scale chemical engineering economics and/or engineering project.
May be repeated for credit.
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CHEE 6390 - Energy and the Environment Credit Hours: 3.0 (Lecture Contact Hours:3; Lab Contact Hours:0)
Prerequisite: Graduate standing in Chemical Engineering or consent of instructor.
This course surveys modern energy technologies and their impact on the environment. Topics include energy generation from fossil, nuclear, and renewable sources. Energy utilization covers stationary and transportation applications. Optimization of source-to-consumer efficiencies and minimization of emissions are included, with special emphasis on emerging technologies such as fuel cells. Capstone topics for the course are future developments in the hydrogen economy and the technical-economic-social aspects of global warming.
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CHEE 6391 - Transport Phenomena in Physiological Systems Credit Hours: 3.0 (Lecture Contact Hours:3; Lab Contact Hours:0)
Prerequisite: Graduate standing or consent of instructor.
Fundamental aspects of systems physiology and other life science principles with quantitative analysis of transport phenomena and chemical reactions in cells, organs and the whole body.
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CHEE 6393 - Cellular and Biological Transport Phenomena Credit Hours: 3.0 (Lecture Contact Hours:3; Lab Contact Hours:0)
Prerequisite: Graduate standing or consent of instructor.
Combines basic cell biology and biophysical chemistry principles with quantitative analysis of transport phenomena and chemical reactions.
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CHEE 6394 - Transport Phenomena in Physiological Systems Credit Hours: 3.0 (Lecture Contact Hours:3; Lab Contact Hours:0)
Prerequisite: BIOE 3440 or CHEE 3363 or equivalent
Fundamental aspects of systems physiology and other life science principles with quantitative analysis of transport phenomena and chemical reactions in cells, organs and the whole body.
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CHEE 6395 - Fundamentals of Tissue Engineering Credit Hours: 3.0 (Lecture Contact Hours:3; Lab Contact Hours:0)
Prerequisite: CHEE 3300, CHEE3334, and CHEE 3369 and graduate standing or consent of instructor
Fundamental concepts in tissue engineering and cell biology. Tissue structure, function, and replication.
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CHEE 6397 - Selected Topics Credit Hours: 3.0 (Lecture Contact Hours:3; Lab Contact Hours:0)
Prerequisite: graduate standing and/orconsent of instructor
Selected Topics
May be repeated for credit.
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CHEE 6398 - Research Credit Hours: 3.0 (; )
Prerequisite: approval of chair.
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CHEE 6399 - Master’s Thesis Credit Hours: 3.0 (Lecture Contact Hours:0; Lab Contact Hours:0)
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CHEE 6498 - Research Credit Hours: 4.0 (; )
Prerequisite: approval of chair.
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CHEE 6598 - Research Credit Hours: 5.0 (; )
Prerequisite: approval of chair.
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CHEE 7350 - Applied Nonlinear Methods For Engineers Credit Hours: 3.0 (Lecture Contact Hours:3; Lab Contact Hours:0)
Prerequisite: CHEE 6331 , CHEE 6332 , or consent of instructor.
Recent nonlinear methods with emphasis on engineering applications. Topics: nonlinear functional analysis, steady-state bifurcation theory, dynamical systems, nonlinear partial differential equations, nonlinear waves, computation methods in bifurcation theory.
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CHEE 7387 - Plasma Processing: Principles and Applications Credit Hours: 3.0 (Lecture Contact Hours:3; Lab Contact Hours:0)
Prerequisite: graduate standing in engineering or natural sciences or consent of instructor.
Principles of low pressure glow discharge plasmas: plasma generation and maintenance, plasma chemistry, plasma diagnostics. Applications with emphasis on semiconductor manufacturing.
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CHEE 7397 - Selected Topics Credit Hours: 3.0 (Lecture Contact Hours:3; Lab Contact Hours:0)
May be repeated for credit.
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CHEE 7399 - Master’s Thesis Credit Hours: 3.0 (Lecture Contact Hours:0; Lab Contact Hours:0)
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CHEE 8198 - Doctoral Research Credit Hours: 1.0 (; )
Prerequisite: approval of chair.
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CHEE 8298 - Doctoral Research Credit Hours: 2.0 (; )
Prerequisite: approval of chair.
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CHEE 8398 - Doctoral Research Credit Hours: 3.0 (; )
Prerequisite: approval of chair.
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CHEE 8399 - Doctoral Dissertation Credit Hours: 3.0 (Lecture Contact Hours:0; Lab Contact Hours:0)
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CHEE 8498 - Doctoral Research Credit Hours: 4.0 (; )
Prerequisite: approval of chair.
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CHEE 8598 - Doctoral Research Credit Hours: 5.0 (; )
Prerequisite: approval of chair.
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CHEE 8699 - Doctoral Dissertation Credit Hours: 6.0 (Lecture Contact Hours:0; Lab Contact Hours:0)
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CHEE 8999 - Doctoral Dissertation Credit Hours: 9.0 (Lecture Contact Hours:0; Lab Contact Hours:0)
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Chemistry |
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CHEM 6111 - Graduate Colloquium Credit Hours: 1.0 (Lecture Contact Hours:1; Lab Contact Hours:0)
Prerequisite: approval of chair.
Colloquia presented by distinguished speakers.
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CHEM 6112 - Graduate Seminar Credit Hours: 1.0 (Lecture Contact Hours:1; Lab Contact Hours:0)
Prerequisite: approval of chair.
Seminar presented by the students on an advanced topic in chemistry.
May be repeated for credit.
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CHEM 6115 - Seminar in Chemistry Laboratory Instruction Credit Hours: 1.0 (Lecture Contact Hours:1; Lab Contact Hours:0)
Prerequisite: approval of chair.
General laboratory instructional techniques; interrelation of teaching assistants, faculty, and department staff.
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CHEM 6198 - Special Problems Credit Hours: 1.0 (; )
Prerequisite: consent of instructor and approval of chair.
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CHEM 6199 - Master’s Thesis Credit Hours: 1.0 (Lecture Contact Hours:0; Lab Contact Hours:0)
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CHEM 6298 - Special Problems Credit Hours: 2.0 (; )
Prerequisite: consent of instructor and approval of chair.
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CHEM 6299 - Master’s Thesis Credit Hours: 2.0 (Lecture Contact Hours:0; Lab Contact Hours:0)
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CHEM 6311 - Mechanisms of Reactions Credit Hours: 3.0 (Lecture Contact Hours:3; Lab Contact Hours:0)
Prerequisite: CHEM 4364 or consent of instructor.
A discussion of the basic physical relationships involved in mechanisms (bonding, stereochemistry, conformation analysis, isotope effects), including a mechanistic description of a select series of reactions.
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CHEM 6312 - Bonding Credit Hours: 3.0 (Lecture Contact Hours:3; Lab Contact Hours:0)
Prerequisite: CHEM 4115 and CHEM 4365 or consent of instructor.
Symmetry, bonding, and structure of compounds.
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CHEM 6313 - Thermodynamics and Kinetics Credit Hours: 3.0 (Lecture Contact Hours:3; Lab Contact Hours:0)
Prerequisite: CHEM 4372 or consent of instructor.
Thermodynamics of gaseous and condensed-phase chemical systems. Rates and mechanisms of chemical reactions.
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CHEM 6314 - Spectroscopy Credit Hours: 3.0 (Lecture Contact Hours:3; Lab Contact Hours:0)
Prerequisite: CHEM 4229 and CHEM 4369 or equivalent, or consent of instructor.
Theory, interpretation, and applications of spectroscopy to chemical systems.
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CHEM 6320 - Molecular Mechanics and Modeling Credit Hours: 3.0 (Lecture Contact Hours:3; Lab Contact Hours:0)
Prerequisite: CHEM 4370 or graduate standing or consent of instructor.
The integration of force field models and graphical displays in chemistry.
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CHEM 6321 - Quantum Chemistry Credit Hours: 3.0 (Lecture Contact Hours:3; Lab Contact Hours:0)
Prerequisite: consent of instructor.
Introduction to quantum mechanics and the theory of atomic and molecular structure.
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CHEM 6322 - Statistical Thermodynamics Credit Hours: 3.0 (Lecture Contact Hours:3; Lab Contact Hours:0)
Prerequisite: consent of instructor.
Introduction to statistical thermodynamics and the theory of gaseous and condensed phase systems.
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CHEM 6324 - Molecular Spectroscopy Credit Hours: 3.0 (Lecture Contact Hours:3; Lab Contact Hours:0)
Prerequisite: consent of instructor.
Theoretical description of the interaction between radiation and matter. Application to the major types of spectroscopy.
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CHEM 6332 - Inorganic Material Analysis Credit Hours: 3.0 (Lecture Contact Hours:2; Lab Contact Hours:4)
Prerequisite: consent of instructor.
Crystal structure, x-ray, electron, and neutron diffraction techniques, electron microbeam imaging and analytical techniques, and other instrumental methods of chemical analysis. Theory, routine use of equipment and applications of each technique.
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CHEM 6333 - Fundamentals of Chemical Analysis Credit Hours: 3.0 (Lecture Contact Hours:3; Lab Contact Hours:0)
Advanced topics in acid-base and complexation equilibria, oxidation-reduction reactions, and an introduction to separation techniques and statistics.
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CHEM 6334 - Electroanalytical Chemistry Credit Hours: 3.0 (Lecture Contact Hours:3; Lab Contact Hours:0)
Prerequisite: CHEM 4369 or consent of instructor.
Advanced topics in classical polarography, coulometry, single and multiple-sweep voltammetry, pulse polarography, chronopotentiometry, and chronoamperometry.
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CHEM 6351 - Organic Structural Determination Credit Hours: 3.0 (Lecture Contact Hours:3; Lab Contact Hours:0)
Prerequisite: CHEM 4364 or consent of instructor.
A survey of current spectroscopic techniques used in organic structural determination.
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CHEM 6352 - Organic Reactions and Synthesis Credit Hours: 3.0 (Lecture Contact Hours:3; Lab Contact Hours:0)
Prerequisite: CHEM 6311 or consent of instructor.
A description of current synthetic methodology useful for the preparation of a wide variety of organic molecules.
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CHEM 6353 - Physical Organic Chemistry Credit Hours: 3.0 (Lecture Contact Hours:3; Lab Contact Hours:0)
Prerequisite: CHEM 6311 or consent of instructor.
A mechanistic description of key organic reactions and reaction intermediates.
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CHEM 6374 - Physical Inorganic Chemistry I Credit Hours: 3.0 (Lecture Contact Hours:3; Lab Contact Hours:0)
Prerequisite: CHEM 4365 or equivalent, CHEM 4370 and CHEM 4372 or equivalents, and credit for or concurrent enrollment in CHEM 6312 .
Group theory including groups, representations for groups, and character tables. Bonding theories for discrete complexes. Electronic spectra of coordination compounds. Coordination numbers and structures of inorganic complexes. Reaction pathways in coordination chemistry.
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CHEM 6375 - Physical Inorganic Chemistry II Credit Hours: 3.0 (Lecture Contact Hours:3; Lab Contact Hours:0)
Prerequisite: CHEM 4365 or equivalent, CHEM 4370 and CHEM 4372 or equivalents, and credit for or concurrent enrollment in .
Crystal symmetry and space groups. Diffraction methods, X-ray crystallography, neutron diffraction and electron microscopy. Magnetic properties, paramagnetism in metal complexes, ferromagnetism and antiferromagnetism.
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CHEM 6376 - Organometallic Chemistry Credit Hours: 3.0 (Lecture Contact Hours:3; Lab Contact Hours:0)
Prerequisite: CHEM 4365 or equivalent and credit for or concurrent enrollment in CHEM 6312 .
Ligands and electron counting. Syntheses and reactions of organometallic compounds. Reaction mechanisms. Applications of organometallic compounds in organic synthesis, catalysis and materials research.
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CHEM 6377 - Solid State Chemistry Credit Hours: 3.0 (Lecture Contact Hours:3; Lab Contact Hours:0)
Prerequisite: CHEM 4365, CHEM 4370, and CHEM 4372 or equivalents and credit for or concurrent enrollment in CHEM 6312 .
Synthesis and applications of solid materials. Characterization techniques. Chemical bonding in solids. Structure-property relations.
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CHEM 6394 - Selected Topics in Organic Chemistry Credit Hours: 3.0 (Lecture Contact Hours:3; Lab Contact Hours:0)
Prerequisite: CHEM 3222, CHEM 3332, and CHEM 4372.
May be repeated with approval of chair.
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CHEM 6395 - Selected Topics in Analytical Chemistry Credit Hours: 3.0 (Lecture Contact Hours:3; Lab Contact Hours:0)
Prerequisite: CHEM 4229 and CHEM 4369; or equivalent.
May be repeated with approval of chair.
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CHEM 6396 - Selected Topics in Inorganic Chemistry Credit Hours: 3.0 (Lecture Contact Hours:3; Lab Contact Hours:0)
Prerequisite: CHEM 4115 and CHEM 4365.
May be repeated with approval of chair.
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CHEM 6397 - Selected Topics in Physical Chemistry Credit Hours: 3.0 (Lecture Contact Hours:3; Lab Contact Hours:0)
Prerequisite: CHEM 4372.
May be repeated with approval of chair.
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CHEM 6398 - Special Problems Credit Hours: 3.0 (; )
Prerequisite: consent of instructor and approval of chair.
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CHEM 6399 - Master’s Thesis Credit Hours: 3.0 (Lecture Contact Hours:0; Lab Contact Hours:0)
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CHEM 6498 - Special Problems Credit Hours: 4.0 (; )
Prerequisite: consent of instructor and approval of chair.
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CHEM 6698 - Special Problems Credit Hours: 6.0 (; )
Prerequisite: consent of instructor and approval of chair.
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CHEM 6998 - Special Problems Credit Hours: 9.0 (; )
Prerequisite: consent of instructor and approval of chair.
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CHEM 7190 - Advanced Topics in Chemistry Credit Hours: 1.0 (Lecture Contact Hours:1; Lab Contact Hours:0)
Prerequisite: consent of instructor.
Bioinorganics; organicmetallics; surface science, homogeneous/heterogeneous catalysis; theoretical bio-organic modeling; spectroscopy and electrobioanalytical chemistry.
May be repeated for credit when topics vary.
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CHEM 7199 - Master’s Thesis Credit Hours: 1.0 (Lecture Contact Hours:0; Lab Contact Hours:0)
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CHEM 7290 - Advanced Topics in Chemistry Credit Hours: 2.0 (Lecture Contact Hours:2; Lab Contact Hours:0)
Prerequisite: consent of instructor.
Bioinorganics; organicmetallics; surface science, homogeneous/heterogeneous catalysis; theoretical bio-organic modeling; spectroscopy and electrobioanalytical chemistry.
May be repeated for credit when topics vary.
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CHEM 7299 - Master’s Thesis Credit Hours: 2.0 (Lecture Contact Hours:0; Lab Contact Hours:0)
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CHEM 7321 - Quantum Mechanics in Chemistry Credit Hours: 3.0 (Lecture Contact Hours:3; Lab Contact Hours:0)
Prerequisite: CHEM 6321 and CHEM 6322 , or consent of instructor.
Advanced theory of molecular structure and energetics.
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CHEM 7322 - Scattering Theory Credit Hours: 3.0 (Lecture Contact Hours:3; Lab Contact Hours:0)
Formerly/Same as: (also PHYS 7322)
Prerequisite: consent of instructor.
Quantum mechanics of atomic and molecular collisions. Inelastic and rearrangement collision phenomena. Exact and approximation methods.
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CHEM 7323 - Statistical Mechanics in Chemistry Credit Hours: 3.0 (Lecture Contact Hours:3; Lab Contact Hours:0)
Prerequisite: CHEM 6322 or consent of instructor.
Advanced theory of the structure and dynamics of gaseous and condensed phase systems.
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CHEM 7325 - Surface Science Credit Hours: 3.0 (Lecture Contact Hours:3; Lab Contact Hours:0)
Prerequisite: consent of instructor.
Basic principles of the modern surface science techniques: X-ray and UV photoelectron spectroscopy, Auger spectroscopy, ion scattering spectrometry, secondary ion spectrometry, and low energy electron diffraction.
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CHEM 7333 - Design and Analysis of Chemical Experiments Credit Hours: 3.0 (Lecture Contact Hours:3; Lab Contact Hours:0)
Prerequisite: CHEM 6333 or consent of instructor.
The principles and application of experimental design and the analysis of data, with emphasis on systems theory, response surface methodology and pattern recognition techniques.
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CHEM 7390 - Advanced Topics in Chemistry Credit Hours: 3.0 (Lecture Contact Hours:3; Lab Contact Hours:0)
Prerequisite: consent of instructor.
Bioinorganics; organicmetallics; surface science, homogeneous/heterogeneous catalysis; theoretical bio-organic modeling; spectroscopy and electrobioanalytical chemistry.
May be repeated for credit when topics vary.
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CHEM 7397 - Topics in Chm for Tchrs Credit Hours: 3.0 (Lecture Contact Hours:3; Lab Contact Hours:0)
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CHEM 7399 - Master’s Thesis Credit Hours: 3.0 (Lecture Contact Hours:0; Lab Contact Hours:0)
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CHEM 8198 - Doctoral Research Credit Hours: 1.0 (; )
Prerequisite: consent of instructor and approval of chair.
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CHEM 8199 - Doctoral Dissertation Credit Hours: 1.0 (Lecture Contact Hours:0; Lab Contact Hours:0)
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CHEM 8298 - Doctoral Research Credit Hours: 2.0 (; )
Prerequisite: consent of instructor and approval of chair.
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CHEM 8299 - Doctoral Dissertation Credit Hours: 2.0 (Lecture Contact Hours:0; Lab Contact Hours:0)
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CHEM 8398 - Doctoral Research Credit Hours: 3.0 (; )
Prerequisite: consent of instructor and approval of chair.
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CHEM 8399 - Doctoral Dissertation Credit Hours: 3.0 (Lecture Contact Hours:0; Lab Contact Hours:0)
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