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School of Engineering
- Undergraduate major in Mechanical Engineering
- Undergraduate major in Systems and Control Engineering
- Undergraduate major in Electrical and Electronic Engineering
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- Undergraduate major in Industrial Engineering and Economics
- Common courses
- School of Materials and Chemical Technology
- School of Computing
- School of Life Science and Technology
- School of Environment and Society
- 工学院,物質理工学院,環境・社会理工学院共通科目
- Liberal arts and basic science courses
- First-Year Courses
- School of Science
- School of Engineering
- School of Materials and Chemical Technology
- School of Computing
- School of Life Science and Technology
-
School of Environment and Society
- Department of Architecture and Building Engineering
- Department of Civil and Environmental Engineering
- Department of Transdisciplinary Science and Engineering
- Department of Social and Human Sciences
- Department of Innovation Science
- Graduate major in Technology and Innovation Management
- Common courses
- Liberal arts and basic science courses
- Academic unit or major
- Graduate major in Chemical Science and Engineering
- Instructor(s)
- Ohtomo Akira Mikami Koichi Yamanaka Ichiro Wada Yuji Kuwata Shigeki Suzuki Eiichi Takao Toshiro
- Class Format
- Lecture
- Media-enhanced courses
- Day/Period(Room No.)
- Wed1-2(H102)
- Group
- -
- Course number
- CAP.A401
- Credits
- 1
- Academic year
- 2016
- Offered quarter
- 1Q
- Syllabus updated
- 2016/4/27
- Lecture notes updated
- -
- Language used
- Japanese
- Access Index
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Course description and aims
[Summary of the lecture] In this course, an overview of the advanced applied chemistry courses (400- and 500-level courses) under Applied Chemistry Graduate Major in 1Q and 2Q will be given.
[Aim of the lecture] The advanced applied chemistry courses provide specialist skills for students at the department of Chemical Science and Engineering, who have the competencies necessary to complete graduate major in Chemical Science and Engineering. The presentation of course outlines helps the students to acquire wide scope and motivation for pursuing cumulative learning. For students at the other graduate majors, this course provides opportunity to learn about frontier researches in the fields of applied chemistry.
Student learning outcomes
At the end of this course, students will be able to:
(1) explain the curriculum of the graduate major courses of applied chemistry core courses.
(2) acquire wide scope and motivation for pursuing cumulative learning of the chemical science and engineering.
Keywords
Organic synthesis, Organofluorine chemistry, Stereoselective synthesis (Advanced design of organic reaction processes), Electrochemistry, Energy conversion chemistry, Electrocatalysis (Advanced electrochemistry), Solid-state chemistry, Materials chemistry, Condensed matter physics (Advanced solid state chemistry), Inorganic chemistry, Biochemistry, Metalloenzyme (Advanced bioinorganic chemistry), Organometallic chemistry, Coordination chemistry, Transition metal complex (Advanced chemistry of transition metal complexes), Materials chemistry, Renewable energy, Nano chemistry (Advanced chemical materials for energy issues)
Competencies that will be developed
| ✔ Specialist skills | Intercultural skills | Communication skills | Critical thinking skills | Practical and/or problem-solving skills |
Class flow
This lecture will overview the contents of (1) Advanced design of organic reaction processes, (2) Advanced Electrochemistry, (3) Advanced solid state chemistry, (4) Advanced bioinorganic chemistry, (5) Advanced chemistry of transition metal complexes, and (6) Advanced chemical materials for energy issues.
Course schedule/Required learning
| Course schedule | Required learning | |
|---|---|---|
| Class 1 | Guidance | Explain the course objectives. |
| Class 2 | Overview of Advanced chemistry of transition metal complexes | Explain outlines of Advanced chemistry of transition metal complexes. |
| Class 3 | Overview of Advanced solid state chemistry | Explain outlines of Advanced solid state chemistry. |
| Class 4 | Overview of Advanced chemical materials for energy issues | Explain outlines of Advanced chemical materials for energy issues. |
| Class 5 | Overview of Advanced electrochemistry | Explain outlines of Advanced electrochemistry. |
| Class 6 | Overview of Advanced design of organic reaction processes. | Explain outlines of Advanced design of organic reaction processes. |
| Class 7 | Overview of Advanced bioinorganic chemistry | Explain outlines of Advanced bioinorganic chemistry. |
| Class 8 | Practice problems and interpretation for confirming the level of understanding | Solve practice problems by accurate understanding of the above all lectures. |
Textbook(s)
undecided
Reference books, course materials, etc.
Course materials are provided during class.
Assessment criteria and methods
Practice problems and interpretation for confirming the level of understanding or quality of writing reports (80%), level of class participation (20%) (The level of class participation will be calculated by discussion, small examination and so on in the lecture.)
Related courses
- CAP.A421 : Advanced Design of Organic Reaction Processes I
- CAP.A422 : Advanced Design of Organic Reaction Processes I
- CAP.A441 : Advanced Electrochemistry I
- CAP.A442 : Advanced Electrochemistry II
- CAP.A461 : Advanced Solid State Chemistry I
- CAP.A462 : Advanced Solid State Chemistry II
- CAP.A561 : Advanced Chemistry of Transition Metal Complexes I
- CAP.A562 : Advanced Chemistry of Transition Metal Complexes II
- ENR.H407 : Advanced Solid State Chemistry Oriented for Energy and Environment Issues I
- ENR.H408 : Advanced Solid State Chemistry Oriented for Energy and Environment Issues II
Prerequisites (i.e., required knowledge, skills, courses, etc.)
It is desirable to study the related courses.
