The goal of this course is not only to acquire the technical terms and knowledge used in the field of synthetic organic chemistry but also to be able to discuss and converse with them in an academic, industrial, or social sense and to acquire the ability to understand the current situation and discuss problems.
Outline:
To synthesize pharmaceuticals and materials, it is necessary to consider synthetic pathways by combining many synthetic reactions. This course will focus on stereo and electronic effects and learn basic and newest synthetic reactions. Students will review the organic chemistry learned in this course and learn the basic concepts and methods of organic synthetic chemistry.
Style:
Lectures and discussions will be given in the form of lectures and discussions. An assignment will be given for each lecture, and the discussion will be based on the study.
Notice:
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Theme |
Goals |
| 1st Semester |
| 1st Quarter |
| 1st |
Organic synthetic chemistry |
Explain the categorization of organic reactions.
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| 2nd |
Approach to organic synthesis reaction 1 |
Explain the atoms, molecular orbitals, resonances, acids, and bases.
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| 3rd |
Approach to organic synthesis reaction 2 |
Explain organic reactions and electronic effects (I-effect).
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| 4th |
Approach to organic synthesis reaction 3 |
Explain organic reactions and electronic effects (R-effect).
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| 5th |
Approach to organic synthesis reaction 4 |
Explain organic reactions and steric effects.
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| 6th |
Synthesis and reaction of hydrocarbons 1 |
Explain hydrogenation reactions, Clemensen reduction, and Wolf-Kishner reduction.
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| 7th |
Synthesis and reaction of hydrocarbons 2 |
Explain Wittig reaction and Diels-Alder reaction.
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| 8th |
Mid-term examination |
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| 2nd Quarter |
| 9th |
Alcohol synthesis and reaction |
Explain the synthesis of alcohols and the many molecular transformation reactions of alcohols.
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| 10th |
Synthesis and reaction of ethers and epoxides |
Explain the synthesis of optically active alcohols and protective groups of alcohols.
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| 11th |
Synthesis and reaction of carbonyl compounds 1 |
Explain the synthesis of ethers and epoxides, Williamson ether synthesis, and ring-opening reactions of epoxides.
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| 12th |
Synthesis and reaction of carbonyl compounds 2 |
Explain Grignard reaction, Michael addition reaction, and Aldol reaction.
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| 13th |
Synthesis and reaction of amines derivatives |
Explain Baeyer-Viliger oxidation and malonate ester synthesis.
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| 14th |
Synthesis and reaction of aromatic compounds 1 |
Explain Mannich reaction, and Hofmann rearrangement of amides.
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| 15th |
Synthesis and reaction of aromatic compounds 2 |
The orientation of the substituents allows us to formulate a strategy for synthesizing aromatics.
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| 16th |
Return and explanation of final examination |
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