学部・大学院区分
Undergraduate / Graduate
工学部
時間割コード
Registration Code
0849110
科目区分【日本語】
Course Category
専門基礎科目
科目区分【英語】
Course Category
Basic Specialized Courses
科目名 【日本語】
Course Title
[G30]自動車化学システム1
科目名 【英語】
Course Title
[G30]Automobile Chemical Systems I
コースナンバリングコード
Course Numbering Code
担当教員 【日本語】
Instructor
永岡 勝俊 ○ 松尾 豊
担当教員 【英語】
Instructor
NAGAOKA Katsutoshi ○ MATSUO Yutaka
単位数
Credits
2
開講期・開講時間帯
Term / Day / Period
秋 水曜日 1時限
Fall Wed 1
授業形態
Course style
講義
Lecture
学科・専攻【日本語】
Department / Program
電気電子情報工学科,機械・航空宇宙工学科 自動車工学プログラム
学科・専攻【英語】
Department / Program
Department of Electrical Engineering, Electronics, and Information Engineering, Department of Mechanical and Aerospace Engineering Automotive Engineering Program
必修・選択【日本語】
Required / Selected
選択
必修・選択【英語】
Required / Selected
Elective


授業の目的 【日本語】
Goals of the Course(JPN)
0
授業の目的 【英語】
Goals of the Course
Catalysts play an important role in automobiles. Exhaust gases from automobiles, including hybrid vehicles, are purified by the catalysts. Catalysts are also used in fuel cell vehicles to produce electricity from hydrogen and oxygen. In the first half of this lecture, students will acquire basic knowledge of catalysis and catalyst.
Through this lecture, students will learn
1. Catalysis and its definition
2. Materials and structures of solid catalysts
3. Catalysis for exhaust gas purification
4. Catalysis for fuel cell

Besides, energy conversion from sunlight to electricity will push forward the development of electric vehicles. In this context, flexible, light-weight, and thin-film solar cells will contribute to realizing such green-energy automobiles in future. Through this course, students can learn:
1. Photoelectric conversion mechanism in thin-film organic solar cells.
2. Necessary materials for constructing solar cells.
3. How to make organic and perovskite solar cells.
到達目標 【日本語】
Objectives of the Course(JPN))
0
到達目標 【英語】
Objectives of the Course
Catalysts play an important role in automobiles. Exhaust gases from automobiles, including hybrid vehicles, are purified by the catalysts. Catalysts are also used in fuel cell vehicles to produce electricity from hydrogen and oxygen. In the first half of this lecture, students will acquire basic knowledge of catalysis and catalyst.
Through this lecture, students will learn
1. Catalysis and its definition
2. Materials and structures of solid catalysts
3. Catalysis for exhaust gas purification
4. Catalysis for fuel cell

Besides, energy conversion from sunlight to electricity will push forward the development of electric vehicles. In this context, flexible, light-weight, and thin-film solar cells will contribute to realizing such green-energy automobiles in future. Through this course, students can learn:
1. Photoelectric conversion mechanism in thin-film organic solar cells.
2. Necessary materials for constructing solar cells.
3. How to make organic and perovskite solar cells.
バックグラウンドとなる科目【日本語】
Prerequisite Subjects
0
バックグラウンドとなる科目【英語】
Prerequisite Subjects
Chemistry, Material engineering, Thermodynamics, Kinetics
授業の内容【日本語】
Course Content
0
授業の内容【英語】
Course Content
1. Reaction path in the presence of the catalyst
2. Materials for heterogeneous catalysts
3. Structures of solid catalysts
4. Automobile exhaust gases and catalytic purification
5. Fuel cells and power generation by electrocatalyst
6. Structures in solar cells
7. Photoelectric conversion mechanism in solar cells.
8. Materials design and synthesis for energy conversion
9. Application of solar cells in automobiles
Because it is necessary to deepen understanding widely, a report or quiz is imposed as appropriate for home study.
成績評価の方法と基準【日本語】
Course Evaluation Method and Criteria
0
成績評価の方法と基準【英語】
Course Evaluation Method and Criteria
Grades (two credits) will be based on the mid-term examination (25%), quizzes in class (25%), class participation (25%), and the final report (25%). Students must achieve a score of 60 points or higher to pass the course. There will be no final examination.

C: 60 to 69 points
B: 70 to 79 points
A: 80 to 100 points
A+: particularly excellent among the evaluation A

Each professor's evaluation is equivalent.
履修条件・注意事項【日本語】
Course Prerequisites / Notes
0
履修条件・注意事項【英語】
Course Prerequisites / Notes
Students are required to understand high school level chemistry. Also, students are encouraged to study materials chemistry for energy conversion prior to take the later part of this course.

Classes are conducted with face-to-face class.

The TACT function "Messages" should be used to ask questions to the teacher.

The TACT function "Message" is used to exchange opinions between students in the course.
教科書【日本語】
Textbook
0
教科書【英語】
Textbook
Printed handouts will be distributed in class.
参考書【日本語】
Reference Book
0
参考書【英語】
Reference Book
Physical Chemistry 9th ed. Atkins & de Paula
Other appropriate books and review articles will be introduced in the lectures.
授業時間外学習の指示【日本語】
Self-directed Learning Outside Course Hours
授業時間外学習の指示【英語】
Self-directed Learning Outside Course Hours
Students are expected to prepare for the next class and understand the meaning of technical terms.
使用言語【英語】
Language used
使用言語【日本語】
Language used
授業開講形態等【日本語】
Lecture format, etc.
授業開講形態等【英語】
Lecture format, etc.
Onsite
遠隔授業(オンデマンド型)で行う場合の追加措置【日本語】
Additional measures for remote class (on-demand class)
遠隔授業(オンデマンド型)で行う場合の追加措置【英語】
Additional measures for remote class (on-demand class)