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Cell Biology |
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CELL 908 - Research in Reproductive Cell Biology Research in Reproductive Cell Biology
Credits: 1 to 12 |
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CELL 909 - Research in Reproductive Cell Biology and Immunology Research in Reproductive Cell Biology and Immunology
Credits: 1 to 12 |
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CELL 910 - Research in Reproductive Cell Biology and Immunology Research in Reproductive Cell Biology and Immunology
Credits: 1 to 12 |
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CELL 911 - Research in Reproductive Physiology Research in Reproductive Physiology
Credits: 1 to 12 |
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CELL 912 - Research in Reproductive Physiology Research in Reproductive Physiology
Credits: 1 to 12 |
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CELL 913 - Research in Molecular Developmental Biology Research in Molecular Developmental Biology
Credits: 1 to 12 |
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CELL 914 - Research in Molecular Developmental Biology Research in Molecular Developmental Biology
Credits: 1 to 12 |
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CELL 915 - Research in Molecular Biology of Connective Tissues Research in Molecular Biology of Connective Tissues
Credits: 1 to 12 |
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CELL 916 - Research in Molecular Biology of Connective Tissues Research in Molecular Biology of Connective Tissues
Credits: 1 to 12 |
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CELL 917 - Research in Developmental Biology of the Nervous System Research in Developmental Biology of the Nervous System
Credits: 1 to 12 |
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CELL 918 - Research in Developmental Biology of the Nervous System Research in Developmental Biology of the Nervous System
Credits: 1 to 12 |
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CELL 921 - Research in Monoclonal Antibody Production Research in Monoclonal Antibody Production
Credits: 1 to 12 |
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CELL 922 - Research in Monoclonal Antibody Production Research in Monoclonal Antibody Production
Credits: 1 to 12 |
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CELL 923 - Research in Molecular Biology of Membranes Research in Molecular Biology of Membranes
Credits: 1 to 12 |
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CELL 924 - Research in Molecular Biology of Membranes Research in Molecular Biology of Membranes
Credits: 1 to 12 |
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CELL 997 - Non-Topical Research, Preparation for Doctoral Research Non-Topical Research, Preparation for Doctoral Research
Credits: 1 to 12 |
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CELL 999 - Non-Topical Research For doctoral dissertation, taken under the supervision of a dissertation director. (Y)
Credits: 1 to 12 |
Chemical Engineering |
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CHE 615 - Advanced Thermodynamics Development of the thermodynamic laws and derived relations. Application of relations to properties of pure and multicomponent systems at equilibrium in the gaseous, liquid, and solidphases. Prediction and calculation of phase and reaction equilibria in practical systems. (Y)
Prerequisites & Notes Prerequisite: Undergraduate-level thermodynamics or instructor permission.
Credits: 3 |
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CHE 618 - Chemical Reaction Engineering Fundamentals of chemical reaction kinetics and mechanisms; experimental methods of determining reaction rates; introduction to heterogeneous catalysis; application of chemical kinetics, along with mass-transfer theory, fluid mechanics, and thermodynamics, to the design and operation of chemical reactors. (Y)
Prerequisites & Notes Prerequisite: CHE 625 and 665.
Credits: 3 |
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CHE 625 - Transport Processes Integrated introduction to fluid mechanics, heat transfer, and mass transfer. Development of the basic equations of change for transport of momentum, energy, and mass in continuous media. Applications with exact solutions, consistent approaches to limiting cases and approximate solutions to formulate the relations to be solved in more complicated problems. (Y)
Prerequisites & Notes Prerequisite: Undergraduate transport processes; corequisite: CHE 665.
Credits: 3 |
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CHE 630 - Mass Transfer Fundamental principles common to mass transfer phenomena, with emphasis on mass transfer in diverse chemical engineering situations. Detailed consideration of fluxes, diffusion with and without convection, interphase mass transfer with chemical reaction, and applications. (Y)
Prerequisites & Notes Prerequisite: CHE 625 and 665.
Credits: 3 |
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CHE 635 - Process Control and Dynamics Introduction to dynamics and control of process systems, controllers, sensors, and final control elements. Development and application of time- and frequency-domain characterizations of subsystems for stability analyses of closed control loops. State-space models, principles of sampled-data analysis and digital control techniques. Elementary systems identification with emphasis on dead time, distributed parameters, and nonlinearities. (Y)
Prerequisites & Notes Prerequisite: Instructor permission.
Credits: 3 |
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CHE 642 - Applied Surface Chemistry Factors underlying interfacial phenomena, with emphasis on thermodynamics of surfaces, structural aspects, and electrical phenomena; applications such as emulsification, foaming, detergency, sedimentation, flow through porous media, fluidization, nucleation, wetting, adhesion, flotation, electrocapillarity. (Y)
Prerequisites & Notes Prerequisite: Instructor permission.
Credits: 3 |
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CHE 647 - Biochemical Engineering Introduction to properties, production, and use of biological molecules of importance to medicine and industry, such as proteins, enzymes, and antibiotics. Topics may include fermentation and cell culture processes, biological mass transfer, enzyme engineering, and implications of recent advances in molecular biology, genomics, and proteomics. (Y)
Prerequisites & Notes Prerequisite: Instructor permission.
Credits: 3 |
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CHE 648 - Bioseparations Engineering Principles of bioseparations engineering including specialized unit operations not normally covered in regular chemical engineering courses. Processing operations downstream of the initial manufacture of biotechnology products, including product recovery, separations, purification, and ancillary operations such as sterile processing, clean-in place and regulatory aspects. Bioprocess integration and design aspects. (Y)
Prerequisites & Notes Prerequisite: Instructor permission.
Credits: 3 |
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CHE 649 - Polymer Chemistry and Engineering Analyzes the mechanisms and kinetics of various polymerization reactions; relations between the molecular structure and polymer properties, and how these properties can be influenced by the polymerization process; fundamental concepts of polymer solution and melt rheology. Applications to polymer processing operations, such as extrusion, molding, and fiber spinning. Three lecture hours. (Y)
Prerequisites & Notes Prerequisite: CHE 321 or instructor permission.
Credits: 3 |
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CHE 665 - Techniques for Chemical Engineering Analysis and Design Methods for analysis of steady state and transient chemical engineering problems arising in fluid mechanics, heat transfer, mass transfer, kinetics, and reactor design. (Y)
Prerequisites & Notes Prerequisite: Undergraduate differential equations, transport processes, and chemical reaction engineering.
Credits: 3 |
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CHE 674 - Process Design and Economics Factors that determine the genesis and evolution of a process. Principles of marketing and technical economics and modern process design principles and techniques, including computer simulation with optimization. (Y)
Prerequisites & Notes Prerequisite: Instructor permission.
Credits: 4 |
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CHE 716 - Applied Statistical Mechanics Introduction to statistical mechanics and its methodologies such as integral equations, computer simulation and perturbation theory. Applications such as phase equilibria, adsorption, transport properties, electrolyte solutions. (SI)
Prerequisites & Notes Prerequisite: CHE 615, or other graduate-level thermodynamics course, and instructor permission.
Credits: 3 |
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CHE 744 - Electrochemical Engineering Electrochemical phenomena and processes from a chemical engineering viewpoint. Application of thermodynamics, electrode kinetics, interfacial phenomena, and transport processes to electrochemical systems such as batteries, rotating disk electrodes, corrosion of metals, and semiconductors. Influence of coupled kinetics, interfacial, and transport phenomena on current distribution and mass transfer in a variety of electrochemical systems. (SI)
Prerequisites & Notes Prerequisite: Graduate-level transport phenomena (e.g., CHE 625) and graduate-level mathematical techniques (e.g., CHE 665), or instructor permission.
Credits: 3 |
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CHE 793 - Independent Study Detailed study of graduate course material on an independent basis under the guidance of a faculty member. (S)
Credits: As arranged |
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CHE 795 - Supervised Project Research Formal record of student commitment to project research for Master of Engineering degree under the guidance of a faculty advisor. May be repeated as necessary. (S)
Credits: As arranged |
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CHE 796 - Graduate Seminar Weekly meetings of graduate students and faculty for presentations and discussion of research in academic and industrial organizations. May be repeated. (S)
Credits: 1 |
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CHE 819 - Advanced Chemical Engineering Kinetics and Reaction Engineering Advanced study of reacting systems, such as experimental methods, heterogeneous catalysis, polymerization kinetics, kinetics of complex reactions, reactor stability, and optimization. (SI)
Prerequisites & Notes Prerequisite: CHE 618 or instructor permission.
Credits: 3 |
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CHE 820 - Modeling of Biological Processes in Environmental Systems Use of mathematical models to describe processes such as biological treatment of chemical waste, including contaminant degradation and bacterial growth, contaminant and bacterial transport, and adsorption. Engineering analyses of treatment processes such as biofilm reactors, sequenced batch reactors, biofilters and in situ bioremediation. May include introduction to hydrogeology, microbiology, transport phenomena and reaction kinetics relevant to environmental systems; application of material and energy balances in the analysis of environmental systems; and dimensional analysis and scaling. Guest lectures by experts from industry, consulting firms and government agencies to discuss applications of these bioremediation technologies. (SI)
Prerequisites & Notes Prerequisite: Instructor permission.
Credits: 3 |
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CHE 833 - Specialized Separation Processes Less conventional separation processes, such as chromatography, ion-exchange, membranes, and crystallization using in-depth and modern chemical engineering methods. Student creativity and participation through development and presentation of individual course projects. (SI)
Prerequisites & Notes Prerequisite: Instructor permission.
Credits: 3 |
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CHE 881 - Special Topics in Chemical Engineering Special subjects at an advanced level under the direction of staff members. (SI)
Prerequisites & Notes Prerequisite: Permission of the staff.
Credits: 3 |
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CHE 882 - Special Topics in Chemical Engineering Special subjects at an advanced level under the direction of staff members. (SI)
Prerequisites & Notes Prerequisite: Permission of the staff.
Credits: 3 |
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CHE 893 - Independent Study Detailed study of graduate course material on an independent basis under the guidance of a faculty member. (S)
Credits: As arranged |
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CHE 897 - Graduate Teaching Instruction For master’s students. (S)
Credits: As arranged |
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CHE 898 - Master’s Research Formal record of student commitment to master’s thesis research under the guidance of a faculty advisor. Registration may be repeated as necessary. (S)
Credits: As arranged |
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CHE 997 - Graduate Teaching Instruction For doctoral students. (S)
Credits: As arranged |
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CHE 999 - Dissertation Formal record of student commitment to doctoral research under the guidance of a faculty advisor. Registration may be repeated as necessary. (S)
Credits: As arranged |
Chemistry |
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CHEM 511 - Organic Chemistry III Systematic review and extension of the facts and theories of organic chemistry; includes the mechanism of reactions, structure, and stereochemistry. (Y)
Prerequisites & Notes Prerequisite: One year of organic chemistry. In addition, one year of physical chemistry is recommended.
Credits: 3 |
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CHEM 521 - Advanced Physical Chemistry I Studies introductory quantum mechanics; application of group theory to molecular orbital theory; and rotational, vibrational, and electronic spectra. (Y)
Credits: 3 |
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CHEM 522 - Advanced Physical Chemistry II Studies the laws of thermodynamics and extra-thermodynamic principles; statistical mechanics; theory of reaction rates, and the interpretation of experimental kinetic data. (Y)
Prerequisites & Notes Prerequisite: Instructor permission.
Credits: 3 |
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CHEM 535 - Advanced Inorganic Chemistry I Introduces the electronic structure of atoms and simple molecules, including basic concepts and applications of symmetry and group theory. The chemistry of the main group elements is described using energetics, structure, and reaction pathways to provide a theoretical background. Emphasizes applying these concepts to predicting the stability and developing synthetic routes to individual compounds or classes. (Y)
Prerequisites & Notes Prerequisite: CHEM 432 or instructor permission.
Credits: 3 |
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CHEM 536 - Advanced Inorganic Chemistry II Introduces the electronic structure of compounds of the transition metals, using ligand field theory and molecular orbital theory. The chemistry of coordination and organometallic compounds is described, emphasizing structure, reactivity, and synthesis. Applications to transformations in organic chemistry and to catalysis are examined. (Y)
Prerequisites & Notes Prerequisite: CHEM 432 or instructor permission.
Credits: 3 |
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CHEM 551 - Instrumental Methods of Analysis Utilization of modern analytical instrumentation for chemical analysis. Includes emission and mass spectroscopy, ultraviolet, visible, and infrared absorption spectroscopy, atomic absorption, electrical methods of analysis, gas chromatography, and X-ray methods. laboratory hours. (Y)
Prerequisites & Notes Prerequisite: CHEM 341 or 361, or instructor permission. Note: Specific background requirements vary for successful study of 700-level and higher courses. Students should consult with the instructor before registering for these courses.
Credits: 3 |
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CHEM 701 - Research Seminar Entering graduate students attend departmental seminars and colloquia.
These lectures expose the student to a wide range of the latest
theoretical and experimental topics in chemistry. Chemistry 701, 702
provides graduate students with an introduction to the theory and
practice of scientific research and professional development. Issues of
safety in the laboratory, literature searching, ethical conduct in
research, intellectual property, entrepreneurship, federal funding
agencies, job opportunities in academe, industry, and national
laboratories, curriculum vitae/résumé writing, web-site creation, and
effective written and oral communication skills are discussed. Students
are required to attend departmental seminars and colloquia in order to
learn about a broad range of current experimental and theoretical
topics in chemistry. Each student will prepare at least one oral and
one written presentation for the class. (Y)
Prerequisites & Notes Prerequisite: Instructor permission.
Credits: 3 |
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CHEM 702 - Research Seminar Entering graduate students attend departmental seminars and colloquia.
These lectures expose the student to a wide range of the latest
theoretical and experimental topics in chemistry. Chemistry 701, 702
provides graduate students with an introduction to the theory and
practice of scientific research and professional development. Issues of
safety in the laboratory, literature searching, ethical conduct in
research, intellectual property, entrepreneurship, federal funding
agencies, job opportunities in academe, industry, and national
laboratories, curriculum vitae/résumé writing, web-site creation, and
effective written and oral communication skills are discussed. Students
are required to attend departmental seminars and colloquia in order to
learn about a broad range of current experimental and theoretical
topics in chemistry. Each student will prepare at least one oral and
one written presentation for the class. (Y)
Prerequisites & Notes Prerequisite: Instructor permission.
Credits: 3 |
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CHEM 707 - Topics of Current Interest and Pedagogy Explores current topics in chemistry unified by a specific theme. Designed to aid teachers in promotion of scientific literacy among the student population of Virginia. Emphasizes topics suitable for stimulating interest among the majority of secondary school students rather than specialized material for advanced students. (IR)
Credits: 3 |
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CHEM 712 - Organic Chemistry IV A comprehensive survey of synthetic organic reactions and their application to the design and execution of syntheses of relatively complex organic substances. (Y)
Prerequisites & Notes Prerequisite: CHEM 511.
Credits: 3 |
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CHEM 715 - Instrumental Theory and Techniques in Organic Chemistry Studies the theory and application of instrumental techniques in solving organic structural problems. Topics include ultraviolet and infrared absorption spectroscopy, nuclear magnetic resonance, mass spectrometry, rotatory dispersion, and circular dichroism. (Y)
Credits: 3 |
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CHEM 722 - Reaction Kinetics and Dynamics Introduces the practice and theory of modern chemical kinetics, emphasizing reactions occurring in gases, liquids, and on catalytic surfaces. Develops basic principles of chemical kinetics and describes current experimental and analytic techniques. Discusses the microscopic reaction dynamics underlying the macroscopic kinetics in terms of reactive potential energy surfaces. Develops statistical theories of reactions that simplify the description of the overall reaction dynamics. Includes the transition state theory, Rice-Ramsperger-Kassel-Marcus (RRKM) theory for unimolecular reactions, Kramers’ theory, Marcus electron transfer theory, and information theory. Presents current topics from the literature and illustrates applications of basic principles through problem-solving exercises. (S)
Prerequisites & Notes Prerequisite: CHEM 521, 522, or instructor permission.
Credits: 3 |
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CHEM 743 - Biological Chemistry I Introduces the components of biological macromolecules and the principles behind their observed structures. Examines the means by which enzymes catalyze transformations of other molecules, emphasizing the chemical principles involved, and describes key metabolic cycles and pathways, the enzymes that catalyze these reactions, and the ways in which these pathways are regulated. Three class hours, one seminar hour. (Y)
Prerequisites & Notes Prerequisite: One year of organic chemistry.
Credits: 4 |
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CHEM 744 - Biological Chemistry II Covers three main areas: (1) the structure and function of biological membranes, (2) complex biochemical systems and processes, including photosynthesis, oxidative phosphorylation, vision, neurotransmission, hormonal regulation, muscle contraction and microtubules, and (3) molecular biology, including DNA metabolism, protein synthesis, regulation of gene expression and recombinant DNA methodology. Three class hours, one seminar hour. (Y)
Prerequisites & Notes Prerequisite: CHEM 743 or instructor permission.
Credits: 4 |
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CHEM 751 - Analytical Chemistry Advanced level survey of instrumental methods of analysis, theory and application of spectrochemical, electrochemical techniques; separations, surfaces, special topics, and recent developments from the literature. (Y)
Prerequisites & Notes Prerequisite: Instructor permission.
Credits: 4 |
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CHEM 812 - Selected Topics in Organic Chemistry Detailed treatment of specialized areas of current interest in organic and biological organic chemistry. Subject matter will vary from year to year. May be taken for credit more than once. (Y)
Credits: 3 |
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CHEM 814 - Chemistry of Heterocyclic Compounds and Related Topics The application of the concepts of organic chemistry, especially structure and reaction mechanisms, to the discussion of heterocyclic compounds. Emphasizes heteroaromatic compounds of nitrogen, oxygen, and sulfur. Offered as required. (SI)
Prerequisites & Notes Prerequisite: CHEM 511.
Credits: 3 |
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CHEM 821 - Principles of Quantum Mechanics Development of principles of quantum mechanics and application to simple systems; and discussion of angular momentum, variation method, and perturbation theory. (SI)
Credits: 3 |
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CHEM 822 - Chemical Applications of Quantum Mechanics Application of quantum mechanics to atomic and molecular systems; includes molecular orbital and valence bond theory. Group theory is developed from first principles and applied to molecular systems. (SI)
Credits: 3 |
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CHEM 825 - Molecular Spectroscopy Studies basic theoretical principles of optical and radio-frequency molecular spectroscopy selected from electron spin and nuclear magnetic resonance, microwave, infrared, Raman, visible, and ultraviolet spectroscopy. (SI)
Prerequisites & Notes Prerequisite: CHEM 521, 821, and group theory equivalent to that covered in CHEM 521 or instructor permission.
Credits: 3 |
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CHEM 831 - Selected Topics in Inorganic Chemistry Advanced treatment of topics of current research interest in inorganic chemistry. (SI)
Credits: 3 |
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CHEM 832 - Selected Topics in Inorganic Chemistry Advanced treatment of topics of current research interest in inorganic chemistry. (SI)
Credits: 3 |
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CHEM 834 - Determination of Molecular Structure by Diffraction Methods Studies the principles of X-ray, neutron, and electron diffraction by ordered solids; and the use of these phenomena in molecular structure determination. (SI)
Credits: 3 |
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CHEM 836 - Physical Inorganic Chemistry An advanced treatment of inorganic chemistry emphasizing structure, physical properties, the physical techniques employed in inorganic chemistry, including ESR, NMR, Mossbauer, NQR and electronic spectroscopy, magneto-chemistry and high pressure chemistry. Application of the experimental and theoretical aspects to bioinorganic chemistry. (SI)
Credits: 3 |
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CHEM 845 - Enzymatic Reaction Mechanisms Studies the mechanisms of enzymatic catalysis of organic reactions, emphasizing the transformation of substrates to products rather than focusing on protein chemistry. Includes the application of physical organic techniques to the study of enzymatic reactions. Major reaction types considered include hydrolases, group transfer reactions, coenzyme-catalyzed reactions, biological redox reactions, eliminations, racemizations, and aldol cleavage reactions. Considers the regulation of enzymatic activity and the validity of current techniques of investigating enzyme catalysis. (SI)
Prerequisites & Notes Prerequisite: Instructor permission.
Credits: 3 |
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CHEM 852 - Special Topics in Instrumental Methods Studies recent developments in instrumentation and their significance to physical-analytical problems. Includes the theory and application of specialized techniques in analytical chemistry. (SI)
Credits: 3 |
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CHEM 854 - Analytical Spectroscopy Studies advanced topics in optical spectroscopy as applied to analytical chemistry. Topics include fundamental principles of atomic and molecular spectroscopy, practical experimental methods including laser methods, and analytical optical methods of current research interest. (SI)
Prerequisites & Notes Prerequisite: CHEM 551 or instructor permission.
Credits: 3 |
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CHEM 861 - Selected Topics in Advanced Physical Chemistry Selected topics in advanced physical chemistry developed to the depth required for modern research. (SI)
Prerequisites & Notes Prerequisite: Instructor permission.
Credits: 3 |
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CHEM 862 - Selected Topics in Advanced Physical Chemistry Selected topics in advanced physical chemistry developed to the depth required for modern research. (SI)
Prerequisites & Notes Prerequisite: Instructor permission.
Credits: 3 |
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CHEM 897 - Non-Topical Research, Preparation for Research For master’s research, taken before a thesis director has been selected. (S)
Credits: 1 to 12 |
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CHEM 898 - Non-Topical Research For master’s thesis, taken under the supervision of a thesis director. (S)
Credits: 1 to 12 |
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CHEM 907 - Research in Infrared Spectroscopy Research in Infrared Spectroscopy
Credits: 1 to 12 |
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CHEM 908 - Research in Infrared Spectroscopy Research in Infrared Spectroscopy
Credits: 1 to 12 |
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CHEM 911 - Research in Inorganic and Organometallic Reactions Research in Inorganic and Organometallic Reactions
Credits: 1 to 12 |
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CHEM 912 - Research in Inorganic and Organometallic Reactions Research in Inorganic and Organometallic Reactions
Credits: 1 to 12 |
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CHEM 915 - Research in Photochemistry and Luminescence Research in Photochemistry and Luminescence
Credits: 1 to 12 |
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CHEM 916 - Research in Photochemistry and Luminescence Research in Photochemistry and Luminescence
Credits: 1 to 12 |
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CHEM 921 - Research in High Resolution Molecules Research in High Resolution Molecules
Credits: 1 to 12 |
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CHEM 922 - Research in High Resolution Molecules Research in High Resolution Molecules
Credits: 1 to 12 |
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CHEM 923 - Research in Mass Spectrometry Research in Mass Spectrometry
Credits: 1 to 12 |
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CHEM 924 - Research in Mass Spectrometry Research in Mass Spectrometry
Credits: 1 to 12 |
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CHEM 925 - Research in Bioorganic Chemistry Research in Bioorganic Chemistry
Credits: 1 to 12 |
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CHEM 926 - Research in Bioorganic Chemistry Research in Bioorganic Chemistry
Credits: 1 to 12 |
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CHEM 927 - Research in Biophysical Chemistry Research in Biophysical Chemistry
Credits: 1 to 12 |
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CHEM 928 - Research in Biophysical Chemistry Research in Biophysical Chemistry
Credits: 1 to 12 |
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CHEM 941 - Research in Membrane Biochemistry Research in Membrane Biochemistry
Credits: 1 to 12 |
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CHEM 942 - Research in Membrane Biochemistry Research in Membrane Biochemistry
Credits: 1 to 12 |
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CHEM 945 - Research in Inorganic Chemistry Research in Inorganic Chemistry
Credits: 1 to 12 |
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CHEM 946 - Research in Inorganic Chemistry Research in Inorganic Chemistry
Credits: 1 to 12 |
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CHEM 949 - Research in Physical Chemistry of Surfaces Research in Physical Chemistry of Surfaces
Credits: 1 to 12 |
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CHEM 950 - Research in Physical Chemistry of Surfaces Research in Physical Chemistry of Surfaces
Credits: 1 to 12 |
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CHEM 951 - Research in Bioorganic Mechanism and Synthesis Research in Bioorganic Mechanism and Synthesis
Credits: 1 to 12 |
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CHEM 952 - Research in Bioorganic Mechanism and Synthesis Research in Bioorganic Mechanism and Synthesis
Credits: 1 to 12 |
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CHEM 955 - Research in Synthetic Organic Chemistry Research in Synthetic Organic Chemistry
Credits: 1 to 12 |
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CHEM 956 - Research in Synthetic Organic Chemistry Research in Synthetic Organic Chemistry
Credits: 1 to 12 |
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CHEM 959 - Research in Multistage Organic Synthesis Research in Multistage Organic Synthesis
Credits: 1 to 12 |
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CHEM 960 - Research in Multistage Organic Synthesis Research in Multistage Organic Synthesis
Credits: 1 to 12 |
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