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CHEM 318: Chemical Biology

4.00 Credits

Duke University

The application of chemical concepts and methods to solving problems in molecular and cell biology, with emphasis on the use of small molecules to elucidate and control information transfer in biological systems. Provides relevant background on both useful chemical tools and new biological targets. Instructors: Hong, Toone, McCafferty

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CHEM 31L: Core Concepts in Chemistry

1.00 Credits

Duke University

Emphasizes core concepts required for organic chemistry, including atomic and molecular structure, chemical equilibrium with applications to acids and bases, thermodynamics, chemical kinetics, and reaction mechanisms. Relevance and integrated nature of these concepts illustrated through applications to a modern theme in chemistry, e.g. in biological, materials, or environmental chemistry. Laboratory illustrates experimental applications of these core concepts. Instructor: Staff

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CHEM 320: Physical Methods in Inorganic Chemistry

2.00 Credits

Duke University

Physical methods covered include paramagnetic NMR, EPR, magnetism, NQR, Mossbauer spectroscopy, photoelectron spectroscopy, and x-ray analysis. Instructor: Staff

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CHEM 321: Inorganic Chemistry

4.00 Credits

Duke University

Bonding and spectroscopy, reactions, transition metal chemistry, main group chemistry, organometallics/catalysis, and solid state. Instructors: Franz

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CHEM 322: Chemical Applications of Group Theory Including Spectroscopy

2.00 Credits

Duke University

Topics covered include symmetry, point groups, group theory, character tables, electronic absorption spectroscopy, infrared spectroscopy, Raman spectroscopy, and microwave spectroscopy. Instructors: Simon and Warren

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CHEM 328: Synthesis and Synthetic Methods in Inorganic/Organometallic Chemistry

2.00 Credits

Duke University

A discussion of inorganic synthetic methods including supramolecular chemistry and organometallic reactions. Instructor: Widenhoefer

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CHEM 329: Special Topics in Inorganic Chemistry

1.00 - 4.00 Credits

Duke University

Lectures, oral reports, and discussions on advanced topics and recent advances in the field of inorganic chemistry. Topics may include: bioinorganic chemistry, fluxional molecules, homogeneous catalysis, synthesis and properties of selected groups of compounds, and new physical methods. 1 to 4 units. Topics course. Instructor: Staff

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CHEM 32L: Modern Applications of Chemical Principles

1.00 Credits

Duke University

Modern applications of chemistry in context of larger scientific theme, e.g. in biology, materials science, or environmental chemistry. Revisits core concepts from CHEM 31L or 43L, incorporating additional topics including intermolecular interactions, phases of matter, solutions, quantitative treatment of aqueous equilibria, electron transfer reactions, and inorganic and coordination chemistry. Laboratory illustrates experimental approaches to modern problems in biological, materials, and environmental chemistry, as well as analytical and synthetic techniques. Prerequisite: Chemistry 31L or 43L. Instructor: Staff

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CHEM 331: Organic Chemistry

4.00 Credits

Duke University

Bonding and structure, stereochemistry, conformational analysis, substitution, addition, and elimination reactions, carbon reactive intermediates, concerted reactions, photochemistry, carbon alkylation, carbonyl addition nucleophilic substitution, electrophilic additions, reduction, cycloadditions, rearrangements, main group organometallics, oxidation. Instructors: Baldwin, Coltart, Craig, Hong, Toone, and Widenhoefer

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CHEM 333: Nuclear Magnetic Resonance

2.00 - 4.00 Credits

Duke University

Structural elucidation of organic and inorganic compounds by NMR. Fundamentals of data acquisition (pulse sequences, detection), multidimensional techniques, study of dynamic processes and their application to the determination of structure. Instructors: Baldwin and Widenhoefer

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