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Course Criteria
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4.00 Credits
Reactive intermediates: carbocations, carbanions, carbenes radicals, photochemistry. Prerequisite: Chemistry 331. Instructors: Craig and Toone
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3.00 Credits
The main goal of this course is to provide and overview of various photonics techniques and their applications. The purpose is to enhance the students' breath of understanding and knowledge of advanced techniques and introduce them to the wide variety of applications in photonics, the science and technology associated with interactions of light with matter. Examples of topics include: High-resolution Luminescence Techniques, Raman Techniques, Optical Coherence Techniques, Ultrafast Laser-base Techniques, Near-Filed and Confocal Optical Techniques, Remote Sensing Techniques, Advanced Light Measurement Techniques, Optical Biosensors, Nano Micro Electrooptics Systems, Highthroughput Assays using Optical Detection, Photonics Meta Materials and Applications, Optics in Telecommunications, and Nanophotonics. The lectures will be presented by faculty members who are leaders in their areas of research in photonics. Instructor: Vo-Dinh
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2.00 Credits
Bonding electron counting and structure. Ligand substitution, oxidative addition/reductive elimination, transmetallation, CO and olefin insertion, beta-hydride elimination, methathesis and attack on coordinated ligands. Cross-coupling, Heck coupling, catalytic hydrogenation, olefin polymerization, carbocyclization hydroformylation and related carbonylation chemistry, Wacker oxidation. Transition metal carbene complexes; transition metal oxo complexes. Instructors: Widenhoefer
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1.00 - 4.00 Credits
Advanced topics and recent developments in organic chemistry. Instructor: Staff
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1.00 - 4.00 Credits
Advanced topics and recent developments in organic chemistry. Instructor: Staff
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4.00 Credits
Foundations and approximate methods in quantum chemistry, with an emphasis on their applications to molecular structure and modeling. Instructors: Beratan, Liu, MacPhail, Simon, Warren, and Yang
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4.00 Credits
Special emphasis on chemical applications. Topics include: linear algebra, the uncertainty relations, angular momentum, perturbation theory, time-dependent phenomena, molecules in electromagnetic fields, group theory, and electron correlation. Prerequisite: Chemistry 341 or consent of instructor. Instructors: Beratan, Liu, MacPhail, Simon, and Yang
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2.00 Credits
Introduction to statistical thermodynamics, with an emphasis on ideal systems and selected model approaches to more complex systems, for example, lattice models. Instructors: Beratan, Charbonneau, MacPhail, and Yang
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2.00 Credits
The phenomenology and theory of chemical dynamics and reaction rates. Instructors: Beratan, Liu, MacPhail, and Simon, and Warren
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4.00 Credits
The interrelationships between structure, function, and mechanisms of biological macromolecules. Principles of dynamics, including kinetics, reactivity and transport, and structure, including thermodynamics, NMR, fluorescence, and CD spectroscopy. Instructors: Beratan, Oas, Shaw, Simon, and Warren
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