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Course Criteria
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4.00 Credits
Offers elective credit for courses taken at consortium institutions.
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4.00 Credits
Offers elective credit for courses taken at consortium institutions.
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4.00 Credits
Offers elective credit for courses taken at consortium institutions.
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3.00 Credits
Covers ethics in science; documentation of work in your laboratory notebook; safety in a chemical research laboratory; principles of experimental design; online computer searching to access chemical literature; reading and writing technical journal articles; preparation and delivery of an effective oral presentation; and preparation of a competitive research proposal.
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3.00 Credits
Describes the theory and practice of separating the components of complex mixtures in the gas and liquid phases. Methods to enhance separation efficiency and detection sensitivity are also included. Includes thin layer, gas and high-performance liquid chromatography (HPLC), and recently developed techniques based on HPLC, including capillary and membrane-based separation, and capillary electrophoresis.
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3.00 Credits
Describes the theory and practice of ion separation in electrostatic and magnetic fields and their subsequent detection. Topics include basic principles of ion trajectories in electrostatic and magnetic fields, design and operation of inlet systems and electron impact ionization, and mass spectra of organic compounds.
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3.00 Credits
Describes the application of optical spectroscopy to qualitative and quantitative analysis. Includes the principles and application of emission, absorption, scattering, and fluorescence spectroscopies, spectrometer design, elementary optics, and modern detection techniques.
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3.00 Credits
Describes the theory of electrode processes and modern electroanalytical experiments. Topics include the nature of the electrode-solution interface (double layer models), mass transfer (diffusion, migration, and convection), types of electrodes, reference electrodes, junction potentials, kinetics of electrode reactions, controlled potential methods (cyclic voltammetry, chronoamperometry), chronocoulometry and square wave voltammetry, and controlled current methods (chronopotentiometry).
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3.00 Credits
Examines proteins (what they are, where they come from, and how they work) in the context of analytical analysis and molecular medicine. Covers the chemical properties of proteins, protein synthesis, and the genetic origins of globular proteins in solution, membrane proteins, and fibrous proteins. Discusses the physical intra- and intermolecular interactions that proteins undergo along with descriptions of protein conformation and methods of structural determination. Explores protein folding as well as protein degradation and enzymatic activity. Highlights protein purification and biophysical characterization in relation to protein analysis, drug design, and optimization.
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3.00 Credits
Explores the use of natural and unnatural small molecule chemical tools to probe macromolecules, including affinity labeling and click chemistry. Covers nucleic acid sequencing technologies and solid phase synthesis of nucleic acids and peptides. Discusses in vitro selection techniques, aptamers, and quantitative issues in library construction. Uses molecular visualization software tools to investigate structures of macromolecules.
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