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41 - 50 of 83 results for: CHEM

CHEM 211A: Research Progress in Chemistry

Required of all second year Ph.D. students. Students present their research progress and plans in brief written and oral summaries.
Terms: Win | Units: 1
Instructors: Solomon, E. (PI)

CHEM 211B: Chemistry Research Seminar Presentation

Required of all third year Ph.D. students. Students present their research project as a seminar.
Terms: Win | Units: 1

CHEM 211C: Chemistry Research Proposal

Required of all fourth year Ph.D. students. Students formulate, write, and orally defend an original research proposal.
Terms: Win | Units: 1

CHEM 221: Advanced Organic Chemistry I

This is a course in modern synthetic organic chemistry with an emphasis on structure, reactivity, and stereocontrol. It will draw from underlying physical organic principles in order for students to learn how to analyze complex molecular structures, predict functional group reactivity, propose reasonable reaction mechanisms, and begin to construct multistep syntheses of organic molecules. Syntheses discussed will serve as jumping off points to cover strategy and many types of transformations. A solid foundation in organic chemistry is expected.
Terms: Aut | Units: 3 | Repeatable for credit
Instructors: Burns, N. (PI)

CHEM 223: Advanced Organic Chemistry II

Physical Organic Chemistry. This course is focused on understanding the important physical principles in organic chemistry, including bonding and structural analysis; molecular interactions; thermodynamics; kinetics; methods to investigate reactive intermediates, reactivity, and elucidate reaction mechanism. Prerequisite: Chem 123 (formerly 131).
Terms: Win | Units: 3 | Repeatable for credit
Instructors: Xia, Y. (PI)

CHEM 225: Advanced Organic Chemistry III

Chemistry is driven by one's understanding of structure and mechanism and ones ability to make molecules. This course is intended to address the universal mechanistic and structural foundations of organic chemistry with an emphasis on new synthetic methods, selectivity analysis, computer-based strategies for the design and synthesis of complex molecules, concepts for innovative problems solving and, importantly, how to put these skills together in the generation of impactful ideas and proposals directed at solving problems in science as required for a career in molecular science. Prerequisite: CHEM 223 or consent of instructor.
Terms: Spr | Units: 3 | Repeatable for credit

CHEM 229: Design and Synthesis of Polymers (CHEM 129)

(Formerly CHEM 137) Polymers are ubiquitous and important for everyday life and advanced technologies for our modern society. Developments in polymer chemistry have allowed the synthesis of polymers with controlled molecular weights, architectures, tacticity, and rich functionalities. Such synthetic controls in macromolecular structures lead to diverse and tunable properties and functions of the produced materials. Therefore, this course also covers basic properties and structure-property relationships of polymers for rational design of structures and selection of chemistry. Polymer chemistry is built on our understanding on the reactivity of organic intermediates, which will be discussed throughout the course. Prerequisite: organic chemistry knowledge, CHEM 123 (formerly CHEM 131).
| Repeatable for credit

CHEM 232: Applications of NMR Spectroscopy

(Formerly 235) The uses of NMR spectroscopy in chemical and biochemical sciences, emphasizing data acquisition for liquid samples and including selection, setup, and processing of standard and advanced experiments.
Terms: Aut | Units: 3
Instructors: Lynch, S. (PI)

CHEM 233C: Creativity in Organic Chemistry

Required of second- and third-year Ph.D. candidates in organic chemistry. The art of formulating, writing, and orally defending a research progress report (A) and two research proposals (B, C). Second-year students register for A and B; third-year students register for C. A: Aut, B: Spr, C: Spr
Terms: Spr | Units: 1
Instructors: Xia, Y. (PI)

CHEM 251: Advanced Inorganic Chemistry

(Formerly Chem 253) Electronic structure and physical properties of transition metal complexes. Ligand field and molecular orbital theories, magnetism and magnetic susceptibility, electron paramagnetic resonance including hyperfine interactions and zero field splitting and electronic absorption spectroscopy including vibrational interactions. Prerequisite: advanced undergrad-level inorganic course (equivalent to CHEM 153).
Terms: Win | Units: 3
Instructors: Solomon, E. (PI)
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