電気化学特論

科目名
Course Title
授業コード 単位数 配当年次 開講期間
Term
科目分類 ナンバリング
コード
曜日
コマ
教室 担当教員氏名
Instructor
電気化学特論
Advanced Electrochemistry
P121020001 2 1 後期授業 専門科目 TSAPC5811-E1 水2 B5-2C65 井上 博史・他

オフィスアワー

Inoue: Thursday, 16:15-17:45, B5 building, Room 6B44.
Higuchi: Tuesday, 16:15-17:45, B5 building, Room 6B34.

授業目標

The objective of this course is (1) to acquire fundamental knowledge in electrochemical science and technology in order to understand the latest articles in international electrochemistry journals, and (2) to acquire the information on current topics on applied electrochemistry.

In specific, the following faculties will be acquired.
1. To understand and explain electrochemical science, in particular fundamental theory of electrochemistry
2. To understand and explain principles of basic and state-of-the-art electrochemical technology and how to acquire and analyze electrochemical data
3. To understand and discuss current topics of electrochemical devices such as rechargeable batteries, electrochemical capacitors and fuel cells
4. To understand and discuss the content of the latest articles in international journals on electrochemistry

参考書

1. "Introduction to Electrochemical Science and Engineering", S.N. Lvov, CRC Press, 2014.
2. "Electrochemical Science and Technology -Fundamentals and Applications-", K.B. Oldham, J.C. Myland, A.M. Bond, John Wiley & Sons, Ltd., 2012.
3. "Electrochemical Methods-Fundamentals and Applications-(2nd Ed.)", A.J. Bard, L.R. Faulkner, John Wiley & Sons, Ltd., 2001.
4. (Japanese) “Denkikagakugairon”, Y. Matsuda, C. Iwakura, Maruzen, 2012.
5. (Japanese) “Denkikagakunokiso”, H. Kita, K. Uosaki, Gihodosyuppan, 2002.

関連科目

Advanced analytical chemistry, Advanced inorganic material chemistry, Advanced physical chemistry, Advanced environmental chemistry

授業時間外の学習(準備学習等について)

Read about the content of each lesson theme from the reference books.

授業の概要

(1) Basic theory of electrochemistry and basic/advanced electrochemical measurement techniques. (by H. Inoue)
(Basic theory of electrochemistry) 1. Electrolyte, 2. Thermodynamics (Electrode potential), 3. Kinetics (Current)
(Basic/advanced electrochemical measurement techniques) 1. Potential-sweep methods, 2. Potential-step methods, 3. Potential-pulse methods
(2-1) Cutting-edge electrochemistry-related topics 1. (by E. Higuchi)
1. Fuel cell technology and related issues, 2. Electrochemical characterization method of electrocatalysts (alloy, core/shell, etc.) for fuel cells: Rotating disk and rotating ring-disk electrode method, 3. Electrocatalytic activity of oxidation/reduction reaction for polymer electrolyte fuel cells, 4. Advances in developing commercial fuel cells, 5. Advances in electrocatalysts for electrooxidation reaction of alcohol, 6. Advances in electrocatalysts for alkaline water electrolysis
(2-2) Cutting-edge electrochemistry-related topics 2. (by M. Chiku)
1. Post lithium-ion batteries: Multivalent cation batteries and All solid-state batteries, 2. Electrochemical capacitors, 3. Electrochemical sensors

授業計画

第1回 (1)Basic theory of electrochemistry.
1. Electrolyte
準備学習等
第2回 (1)Basic theory of electrochemistry.
2. Thermodynamics (Electrode potential)
準備学習等
第3回 (1)Basic theory of electrochemistry.
3. Kinetics (Current)
準備学習等
第4回 (1)Basic/advanced electrochemical measurement techniques.
1. Potential-sweep methods
準備学習等
第5回 (1)Basic/advanced electrochemical measurement techniques.
2. Potential-step methods
準備学習等
第6回 (1)Basic/advanced electrochemical measurement techniques.
3. Potential-pulse methods
準備学習等
第7回 (2)Cutting-edge electrochemistry-related topics 1.
Fuel cell technology and related issues
準備学習等
第8回 (2)Cutting-edge electrochemistry-related topics 1.
Electrochemical characterization method of electrocatalysts (alloy, core/shell, etc.) for fuel cells: Rotating disk and rotating ring-disk electrode method
準備学習等
第9回 (2)Cutting-edge electrochemistry-related topics 1.
Electrocatalytic activity of oxidation/reduction reaction for polymer electrolyte fuel cells
準備学習等
第10回 (2)Cutting-edge electrochemistry-related topics 1.
Advances in developing commercial fuel cells
準備学習等
第11回 (2)Cutting-edge electrochemistry-related topics 1.
Advances in electrocatalysts for electrooxidation reaction of alcohol
準備学習等
第12回 (2)Cutting-edge electrochemistry-related topics 1.
Advances in electrocatalysts for alkaline water electrolysis
準備学習等
第13回 (2)Cutting-edge electrochemistry-related topics 2.
Post lithium-ion batteries: Multivalent cation batteries and All solid-state batteries
準備学習等
第14回 (2)Cutting-edge electrochemistry-related topics 2.
Electrochemical capacitors
準備学習等
第15回 (2)Cutting-edge electrochemistry-related topics 2.
Electrochemical sensors
準備学習等
第16回 Final examination 準備学習等

成績評価

In grade evaluation, the degree of achievement of each item indicated in the achievement goals is evaluated. The grade of this course is evaluated by the sum of examinations and/or reports conducted by each instructor. A score of 60% or higher is required to pass. For this purpose, students must be able to at least:
1. Explain the basic theory of electrochemistry.
2. Explain the principles and analysis methods of basic electrochemical measurement techniques.
3. Read papers and write short essays on more than six cutting-edge electrochemistry-related topics.