- Lecturer
- Fuchigami Toshio
- Place
- Mon3-4(G113)
- Credits
- Lecture2 Exercise0 Experiment0
- Code
- 95049
- Syllabus updated
- 2008/10/1
- Lecture notes updated
- 2008/10/1
- Semester
- Fall Semester
Outline of lecture
譛画ゥ滄崕讌オ繝励Ο繧サ繧ケ縺ッ繝輔ぃ繧、繝ウ繧ア繝溘き繝ォ繧コ繧讖溯ス諤ァ譚先侭縺ョ蜷域舌ョ縺溘a縺ョ讌オ繧√※譛臥畑縺ェ譁ケ豕輔〒縺ゅk縲よ悽隰帷セゥ縺ァ縺ッシ御ク玖ィ倥ョ繝医ヴ繝繧ッ繧ケ繧堤カイ鄒縺吶k縲
シ托シ画怏讖滄崕讌オ繝励Ο繧サ繧ケ縺ョ蝓コ遉
シ抵シ峨ヵ繧。繧、繝ウ繧ア繝溘き繝ォ繧コ蜷域舌∈縺ョ蠢懃畑
シ難シ牙ー朱崕諤ァ鬮伜蟄仙粋謌舌∈縺ョ蠢懃畑
シ費シ画怏讖滄崕讌オ繝励Ο繧サ繧ケ縺ョ譁ー縺励>螻暮幕
Organic electrode process is of much importance in order to prepare various fine chemicals and functional materials.
This lecture will cover the following topics.
1.Introduction
2.History of organic electrode process, Fundamental aspects of organic electrode processes (1)
3.Fundamental aspects of organic electrode processes (2)
4.Methods for studies of organic electrode processes (1)
5.Methods for studies of organic electrode processes (2)
6.Mechanistic aspects of organic electrode processes (Electrogenerated reactive species: Properties and synthetic utilizations)
7.Synthetic aspects of organic electrode processes (Adsorption mechanism and stereo- and regioselective reactions)
8.Synthetic aspects of organic electrode processes (Hydrocarbons, Heteroatom-containing compounds, Heterocyclic compounds)
9.Synthetic aspects of organic electrode processes (Organometallic compounds, Organofluoro compounds)
10.New trends of organic electrode processes (Electrogenerated acids and bases: Mediatory reactions)
11.New trends of organic electrode processes (Concepts and applications of modified electrodes)
12.New trends of organic electrode processes (C1-chemistry, Biomass, Asymmetric synthesis)
13.New trends of organic electrode processes (Paired electrosynthesis, Photoelectrolysis, Electropolimerization, SPE electrolysis)
14.Application to industrial processes
Purpose of lecture
Organic electrode process is of much importance in order to prepare various fine chemicals and functional materials.
Plan of lecture
1.Introduction
2.History of organic electrode process, Fundamental aspects of organic electrode process (1)
3.Fundamental aspects of organic electrode processes (2)
4.Methods for studies of organic electrode processes (1)
5.Methods for studies of organic electrode processes (2)
6.Mechanistic aspects of organic electrode processes (Electrogenerated reactive species: Properties and synthetic utilizations)
7.Synthetic aspects of organic electrode processes (Adsorption mechanism and stereo- and regioselective reactions)
8.Synthetic aspects of organic electrode processes (Hydrocarbons, Heteroatom-containing compounds, Heterocyclic compounds)
9.Synthetic aspects of organic electrode processes (Organometallic compounds, Organofluoro compounds)
10.New trends of organic electrode processes (Electrogenerated acids and bases: Mediatory reactions)
11.New trends of organic electrode processes (Concepts and applications of modified electrodes)
12.New trends of organic electrode processes (C1-chemistry, Biomass, Asymmetric synthesis)
13.New trends of organic electrode processes (Paired electrosynthesis, Photoelectrolysis, Electropolimerization, SPE electrolysis)
14.Application of electrode potentials (2)
Textbook and reference
Organic Electrochemistry (Ed. by H. Lund and O. Hammerich , Dekker, New York, 2001)
Evaluation
Attendance and Examination
