Creative Science and EngineeringⅠ FeaturesⅡ History and ProfileⅢ RequirementsAdvanced Science and EngineeringFundamental Science and EngineeringCONTENTSCore Courses / Recommended Courses1. Ensure that you enroll in seminar courses supervised by your thesis advisor. The primary focus area in synthetic organic chemistry research include total syntheses of bioactive natural products, the development of new reactions and synthetic methodologies targeting them, catalytic asymmetric synthesis method, and bioorganic chemistry rooted in total synthesis. Functional organic chemistry primarily involves the synthesis and reactions of new functionalized molecules with distinct structural properties. It also involves advancing organocatalysis and exploring the design, construction, and analysis of biomolecules. In reaction organic chemistry, the primary focus is on developing efficient carbon-carbon bond forming reactions, particularly catalytic asymmetric reactions, utilizing unique traits of organometallic complexes. In bioorganic chemistry, the central focus is to investigate synthetic methods and catalysts for the efficient and clean synthesis of biologically significant molecules, or their derivatives for biochemical research or medicinal applications. ◆ Inorganic and Analytical ChemistryIn this research division, we specialize in inorganic reaction mechanisms and coordination chemistry with a primary focus on elucidating intricacies of various reactions. We accomplish this through examination of kinetics and equilibrium of inorganic reactions in solution, such as ligand substitution and oxidation-reduction reactions. In performing the studies, we use various spectroscopic methods such as X-ray crystal structure analysis, ESR, NMR, high pressure NMR, stopped-flow spectrophotometry, and high-pressure stopped-flow spectrophotometry, cyclic voltammetry, and spectro electrochemistry. We also engage in research related to the synthesis, structure, and properties of metal complexes featuring metal-metal bonds, nano-scale metal complexes, and functional complexes. Our particular focus is placed on studies of electrochemical and photochemical properties of such complexes.◆ BiochemistryIn this research division, life science is studied and explored though a chemistry perspective, where life is seen as the assembly of chemical substances and life phenomena as chemical reactions. Chemical biology investigate life phenomena through the use of bioprobes inspired by molecules found in food or derived from nature. Biomolecular chemistry delves into topics related to collagen, while molecular biology explores the mechanisms of cell division and its regulation, with the potential application to yield novel anti-cancer treatments. 2. Credits earned from seminar courses exceeding 13 credits will not be counted toward your degree requirement. 3. It is advised to enroll in all core courses and select several courses from the “recommended courses” list. 4. Note that completing research ethics course(s)* is a prerequisite for submitting Master’s thesis. 127127
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