survey of organic chemistry

Prerequisites: CHEM 6C or 6CH and CHEM 96 or EDS 31. Laboratory course emphasizing classical quantitative chemical analysis techniques, including separation and gravimetric methods, as well as an introduction to instrumental analysis. Course in computational methods, with focus on quantum chemistry. A materials fee may be required for this course. CHEM 239. READ PAPER. Restricted to the following major codes: CH25, CH32, CH31, CH33, CH34, CH35, CH36, CH37. Prerequisite: minimum grade of 1.7 in CHEM 152. CHEM 126B. Second, students present a critical analysis of a paper from the current literature and discuss aspects of research design, rigor, and reproducibility including whether the statistical analysis is appropriate. Prerequisites: graduate-student standing. Renumbered from CHEM 140AH. Offered: ASp.View course details in MyPlan: CHEM 455, CHEM 456 Physical Chemistry (3) NWChemical thermodynamics. Third quarter of a three-quarter honors sequence intended for well-prepared science and engineering majors. Prerequisites: BIBC 100 or CHEM 114A and BIBC 102 or CHEM 114B and BIMM 100 or CHEM 114C. Offered: jointly with CHEM E 546/MSE 546; W.View course details in MyPlan: CHEM 546, CHEM 547 Data Science Capstone Project (3) David A. C. BeckInvolves teams of graduate students from molecular, materials or clean energy focused disciplines working on Data Science oriented research and engineering projects solicited from internal and external partners. Offered: A.View course details in MyPlan: CHEM 335, CHEM 336 Honors Organic Chemistry (4) NWFor chemistry majors and otherwise qualified students planning three or more quarters of organic chemistry. Prerequisites: biochemistry and molecular biology. May be coscheduled with CHEM 254. Prerequisite: a minimum grade of 1.7 in CHEM 223. Course in computational methods, with focus on molecular simulations. Offered: A.View course details in MyPlan: CHEM 516, CHEM 517 Organometallics (3)Chemistry of the metal-carbon bond for both main group and transition metals. Gas chromatography, mass spectrometry, high performance liquid chromatography, ion chromatography, atomic absorption spectroscopy, fluorescence spectrometry, infrared spectrometry. This course is only open for students supported or affiliated with the Molecular Biophysics Training Program. CHEM 104. Prepares students to make meaningful observations of how K–12 teachers deal with difficulties. Includes considerations of molecular structure and reactivity, synthetic methods, spectroscopic tools, and stereochemistry. Offered: jointly with ATM S 508/OCEAN 523.View course details in MyPlan: CHEM 523, CHEM 524 Analytical Mass Spectrometry (3)Theory and practice of mass spectrometry with emphasis on ionization methods, mass analyzers, gas-phase ion chemistry, and spectra interpretation. Derivation of thermodynamics from atomic descriptions. CHEM 100A. All courses, faculty listings, and curricular and degree requirements described herein are subject to change or deletion without notice. ), CHEM 217. Renumbered from CHEM 140C. May be coscheduled with CHEM 142. Prerequisites: CHEM 6C or 6CH. (S/U grades only.). Renumbered from CHEM 133. Emphasis is on current research topics in atmospheric, oceanic, and geological environments. Offered: AWSpS.View course details in MyPlan: CHEM 152, CHEM 153 Accelerated General Chemistry (6) NWFor science and engineering majors. May be coscheduled with CHEM 256. Foundations of Teaching and Learning Science (4). Prerequisite: either CHEM 224, CHEM 239, CHEM 337, or B CHEM 239; and CHEM 312. Offered: AWSpS.View course details in MyPlan: CHEM 700, CHEM 800 Doctoral Dissertation (*-)Prerequisite: permission of coordinator. Offered: W.View course details in MyPlan: CHEM 155, CHEM 162 General Chemistry (5) NW, QSRMolecular bonding theories, liquids, solids, solutions, and introduction to organic and transition metal chemistry. Topics include self-assembled monolayers, block copolymers, liquid crystals, photoresists, organic electronic materials, micelles and vesicles, soft lithography, organic colloids, organic nanocomposites, and applications in biomedicine and food science. Special Topics in Analytical Chemistry (4). 9)Individual meetings with faculty to discuss readings (journal articles, book chapters, proceedings) in the chemical sciences. Includes introduction to membranes, enzyme mechanisms, prosthetic groups, macromolecular conformations and supramolecular architecture. Students may not receive credit for the same topic. Students may not receive credit for CHEM 213 and CHEM 213B. Topics are similar to those in 6C but are taught at a higher level and faster pace. With CHEM 130 and 131, CHEM 132 is part of the Physical Chemistry sequence taught over three quarters. Offered: W.View course details in MyPlan: CHEM 417, CHEM 418 Nuclear Chemistry (3) NWNatural radioactivity, nuclear systematics and reactions, radioactive decay processes, stellar nucleosynthesis, applications of radioactivity. Prerequisite: either CHEM 165 or CHEM 312; either CHEM 453, CHEM 455, or CHEM 475, which may be taken concurrently. A look at some of nature’s most intriguing molecules and the ability to discover, synthesize, modify, and use them. (May not be offered every year. Prerequisite: 1.7 in CHEM 335; minimum 1.7 grade in CHEM 336, which may be taken concurrently. Prerequisites: CHEM 40B, 40BH, 140B, or 140BH. Explore physical and analytical chemistry of surfaces. Introduces mathematical tools to simulate biological processes at multiple scales. Prerequisites: CHEM 6C or 6CH. No more than 5 credits can be counted toward graduation from the following: CHEM 221, CHEM 224, CHEM 239, CHEM 337. Methodology of mechanistic organic chemistry: integration of rate expressions, determination of rate constants, transition state theory; catalysis, kinetic orders, isotope effects, substituent effects, solvent effects, linear free energy relationship; product studies, stereochemistry; reactive intermediates; rapid reactions. Thermodynamic and spectroscopic criteria for structure and stability of compounds and chemical reactions of main group elements in terms of molecular structure and reactivity. Prerequisites: PHYS 2A and 2B. (S/U grades only.) UC San Diego 9500 Gilman Dr. La Jolla, CA 92093 (858) 534-2230. Offered: W.View course details in MyPlan: CHEM 422, CHEM 425 Meso and Microfluidics in Chemical Analysis (3) NWFluid dynamics and mass transport in meso and microfluidics. (S/U grades only.) P/NP grades only. Biosynthesis of amino acids, lipids, carbohydrates, purines, pyrimidines, proteins, nucleic acids. Includes a laboratory/discussion each week. Students completing 6AH may not subsequently take 6A for credit. The course content is built on a background in mathematics and physical chemistry, and provides an introduction to computational theory and molecular mechanics. Emergent properties include dose response, cross regulation, dynamic, and stochastic behaviors. 6)Research in chemistry. (Cross-listed with BENG 276.) CHEM 265. Students may only receive credit for one of the following: CHEM 40C, 40CH, 140C, or 140CH. Offered: W.View course details in MyPlan: CHEM 531, CHEM 532 Advanced Bio-Organic Chemistry (3)Chemical biology. Prerequisites: CHEM 6C or 6CH and CHEM 6BL, 7L, or 7LM. Prerequisites: graduate standing. Recommended: concurrent or prior enrollment in MATH 10B or 20B. CHEM 156. It concludes with a brief survey of the various topics in organic chemistry and a description of the way that we present them in this text. Prerequisites: CHEM 43A, 43AM, 143A, 143AM, or 143AH and CHEM 40B, 40BH, 140B, or 140BH. Students must pass a safety exam. Polyfunctional compounds and natural products, lipids, carbohydrates, amino acids, proteins, and nucleic acids. Course in computational methods, with focus on molecular simulations. Recommended: concurrent or prior enrollment in MATH 20B. Offered: W.View course details in MyPlan: CHEM 526, CHEM 528 Biomolecular Analysis (3)Principles of quantifying and identifying biological molecules, including metabolites, proteins, and nucleic acids, using modern analysis techniques, including analytical spectroscopy, molecular recognition, mass spectrometry, and separations. Introduction to biochemistry for nonscience majors. The emphasis is on applications and reliability. Focuses on four major categories of instrumental analysis methods: optical spectroscopy, chromatography, flow injection analysis, and electroanalytical chemistry. Topics include thermodynamics, kinetics, electrochemistry, coordination chemistry, and introductions to nuclear, main group organic, and biochemistry. Prerequisites: CHEM 6CL or 100A, PHYS 2BL or 2CL or 2DL, and CHEM 126 or 126A or 126B or 127 or 130 or 131 or 133. Together CHEM 145 and CHEM 155 cover material in CHEM 142, CHEM 152, and CHEM 162. (S/U grades only.) Prerequisites: MATH 20C and CHEM 126 or CHEM 126B or CHEM 130 or CHEM 133. Prerequisite: either CHEM 453, CHEM 455, or CHEM 475; MATH 136, or both MATH 307 and MATH 308. All rights reserved. Students may only receive credit for one of the following: CHEM 40A, 40AH, 140A, or 140AH. No more than the number of credits indicated can be counted toward graduation from the following course group: CHEM 165, CHEM 312 (5 credits). Includes laboratory. Hands-on experience provides training for careers in industrial research and for future thesis research. 18)Credit/no-credit only.View course details in MyPlan: CHEM 595, CHEM 597 Seminar in Molecular Engineering (1, max. Students may not receive credit for SIO 141 and CHEM 174. Prerequisites: graduate standing. Recommended preparation: undergraduate-level organic chemistry and at least one previous course in either general biology, molecular biology, or cell biology is strongly encouraged. 12)Primarily for doctoral candidates in physical chemistry. Prerequisites: consent of instructor. Prerequisite: a minimum grade of 1.7 in CHEM 220. Prerequisite: minimum 1.7 grade in CHEM 336; minimum 2.2 grade in CHEM 346; minimum 1.7 grade in CHEM 337, which may be taken concurrently. CHEM 210. CHEM 204 students will be required to complete additional paper and/or exam beyond that expected of students in CHEM 104. Students completing 6BH may not subsequently take 6B for credit. Clayden Organic Chemistry (1) angie Navarrete. Topics covered include molecular geometry, molecular-orbital theory, orbital hybridization, aromaticity, chemical reactivity, stereochemistry, infrared and electronic spectra, photochemistry, and nuclear magnetic resonance. CHEM 267. Emphasis on bioinformatics as well as the role of chemical measurements in medical diagnostics and biomedical research. Selected topics in RNA structure and function, such as the ribosome, ribozyme, antibiotics, splicing and RNA interference, as they relate to the RNA role in gene expression and regulation. Prerequisites: student must be of first-year standing and a Regent’s Scholar; approved Special Studies form. CHEM 114A. 9)Preparation for examination. ), CHEM 222. Students may only receive credit for one of the following: CHEM 40B, 140B, 40BH, or 140BH. Recommended as the third course of the sequence. Prerequisites: CHEM 40B or 140B (a grade of C or higher in CHEM 40B or 140B is strongly recommended). Phase transitions. This course explores the potential impacts of nanoscience and nanotechnology on environmental processes and human health as well as the sustainable design, development, and use of nanotechnologies. Prerequisites: graduate-student standing and consent of instructor. Introduction to membranes, enzyme mechanisms, prosthetic groups, macromolecular conformations, and supramolecular architecture. Offered: A.View course details in MyPlan: CHEM 416, CHEM 417 Organometallic Chemistry (3) NWChemistry of the metal-carbon bond for both main group and transition metals. Structure and reactivity with applications to organic synthesis and catalysis. A discussion of current topics involving nucleic acid modification, including systems derived from zinc fingers, TALEs, and CRISPR-Cas9. Copyright © 2021 Regents of the University of California. This is a one-quarter preparatory chemistry course intended for students continuing on to general chemistry. Origins of Life and the Universe (4). Includes laboratory. Honors Organic Chemistry II (4). Honors General Chemistry III (4). Molecular Biophysics Student Seminar (2). Treats both chemical synthesis and biologics like monoclonal antibodies. CHEM 146. Separation, purification, spectroscopy, product analysis, and effects of reaction conditions. Prerequisites: department stamp and/or consent of the instructor. Prerequisite: either CHEM E 545/CHEM 545/MSE 545 (or equivalent), CHEM E 546/CHEM 546/MSE 546 (or equivalent), or proof of proficiency in Python. Prerequisite: CHEM 460. Electronic structure descriptions are used to rationalize structure/reactivity relationships. Prerequisites: graduate standing. Prerequisites: CHEM 120A. CHEM 255. This course discusses RNA structure and function, as well as biological pathways involving RNA-centered complexes. Prerequisites: CHEM 40A, 140A, 40AH, or 140AH. Program or materials fees may apply. Prerequisites: CHEM 6C or 6CH, and PHYS 2C or 2D, and MATH 20D. Prerequisite: either a minimum grade of 1.7 in CHEM 110, a passing score in the General Chemistry Placement exam, or a score of 1 or higher on Chemistry AP test. Time-dependent behavior of systems; interaction of matter with light; selection rules. Topics include nanoparticle synthesis, solar cells, impedance analysis, characterization with solar simulator, coin cell battery assembly & testing, photochemistry, semiconductor w/ 2D materials, grid simulation Offered: jointly with CHEM E 540/MSE 566; A.View course details in MyPlan: CHEM 566, CHEM 567 Computers in Data Acquisition and Analysis (3)Interface computers to a variety of laboratory equipment such as Geiger Counter, pH titration, spectrophotometer, PID controlled magnetic induction device, or an acoustic tube. Only 5 credits can be counted toward graduation from the following: CHEM 120, CHEM 142, CHEM 145. May be taken for credit two times. Credit/no-credit only. Renumbered from CHEM 140CH. Offered: W.View course details in MyPlan: CHEM 485, CHEM 486 Electronic Dynamics in Organic and Inorganic Materials (3) NWEnergy and charge transfer; exciton migration and charge transport; photophysical dynamics in optoelectronic and kinetic processes in electrochemical energy conversion. See department for instructor and the topic during any particular quarter.View course details in MyPlan: CHEM 560, CHEM 564 Organic Electronic and Photonic Materials/Polymers (3)Physical and material concepts determining properties of organic electronic and photonic materials. Survey of the chemistry of semiconductors, superconductors, molecular magnetic materials, zeolites, fast ion conductors, electronically conducting polymers and ceramics. Prerequisite: CHEM 550. Atomic nature of matter, quantum mechanics, ionic and covalent bonding, molecular geometry, stoichiometry, solution stoichiometry, kinetics, and gas laws. CHEM 130. This course explores chemical identity and properties, metabolic pathways and engineering, refining processes, formulation, and analytical techniques related to current and future renewable products. May be coscheduled with CHEM 286. Beyond learning basic analytical principles and instrument design, students receive extensive laboratory training in all major analytical methods. 30)Weekly seminars on current topics in molecular Engineering. Prerequisites: graduate standing. A materials fee is required. CHEM 143C. Includes laboratory. Special Topics in Organic Chemistry (2–4). Offered: AWSpS.View course details in MyPlan: CHEM 199, CHEM 220 Principles of Chemistry II (5) NWSecond course in a three-quarter overview of general chemistry, organic chemistry, and biochemistry. Topics include atomic theory, bonding, molecular geometry, stoichiometry, types of reactions, and thermochemistry. CHEM 100B. Offered: AWSpS.View course details in MyPlan: CHEM 499, CHEM 500 Grant Proposal and Scientific Writing (1)Introduces steps in compiling a successful grant proposal and writing scientific articles, personal statements, research summaries, and procuring recommendation letters, using the NSF graduate fellowship as a guide. An introduction to teaching chemistry. Prerequisite: CHEM E 545 and CHEM E 546; recommended: prior exposure to data science fundamentals and software development. Offered: W.View course details in MyPlan: CHEM 346, CHEM 347 Organic and Qualitative Organic Honors Laboratory (3) NWContinuation of CHEM 346. Covers optical and magnetic resonance time-domain spectroscopies, single-molecule methods, etc., with applications to the structure and dynamics of proteins, nucleic acids, biomembranes, and biomaterials.

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