Introduction to Industrial Chemistry
| Numbering Code | U-ENG27 17405 LJ60 | Year/Term | 2022 ・ First semester | |
|---|---|---|---|---|
| Number of Credits | 2 | Course Type | Lecture | |
| Target Year | Target Student | |||
| Language | Japanese | Day/Period | Wed.1 | |
| Instructor name |
ABE TAKESHI (Graduate School of Engineering Professor) SATOU TOORU (Fukui Institute for Fundamental Chemistry Professor) NAKAMURA YOU (Graduate School of Engineering Professor) MIURA KIYOTAKA (Graduate School of Engineering Professor) ABE RYUU (Graduate School of Engineering Professor) MATSUBARA SEIJIROU (Graduate School of Engineering Professor) NAKAO YOSHIAKI (Graduate School of Engineering Professor) KONDOU TERUYUKI (Graduate School of Engineering Professor) OGOSHI TOMOKI (Graduate School of Engineering Professor) SUGINOME MICHINORI (Graduate School of Engineering Professor) FUKAZAWA AIKO (Institute for Integrated Cell-Material Sciences Professor) OTSUKA KOJI (Graduate School of Engineering Professor) SUGIYASU KAZUNORI (Graduate School of Engineering Professor) MATSUMIYA YUMI (Institute for Chemical Research Associate Professor) ATOMI HARUYUKI (Graduate School of Engineering Professor) NUMATA KEIJI (Graduate School of Engineering Professor) KAWASE MOTOAKI (Graduate School of Engineering Professor) SOTOWA KENICHIRO (Graduate School of Engineering Professor) |
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| Outline and Purpose of the Course | In this subject, the leading topics in research conducted in the field of industrial chemistry are taken up in a series of lectures and explained in a simple manner. | |||
| Course Goals | To gain an interest in chemistry, to understand the role of chemistry in society, as well as basic knowledge that should be acquired as an industrial chemistry student. | |||
| Schedule and Contents |
Lecture 1: Physical chemistry field: Professor Hironori Kaji: Shining molecules: Principles and applications of electroluminescence (EL) Lecture 2: Physical chemistry field: Professor Tsuyoshi Koga: The discipline of physical chemistry: Centered on statistical thermodynamics Lecture 3: Inorganic chemistry field: Professor Kiyotaka Miura: Manufacturing via lasers Lecture 4: Inorganic chemistry field: Professor Ryu Abe: Artificial photosynthesis will open up a hydrogen-based society in the future: Solar water splitting via photocatalysts Lecture 5: Organic chemistry field: Professor Seijiro Matsubara, Professor Yoshiaki Nakao, Professor Teruyuki Kondo, Professor Michinori Suginome: Constructing molecules via precise organic synthesis Lecture 6: Organic chemistry field: Professor Seijiro Matsubara, Professor Yoshiaki Nakao, Professor Tomoki Ogoshi, Professor Yasujiro Murata: Constructing molecules via precise organic synthesis Lecture 7: Analytical chemistry field: Professor Takeshi Abe, Professor Koji Otsuka: Storage batteries, the latest analytic technology, micro/nanoscale separation analysis Lecture 8: Analytical chemistry field: Professor Takeshi Abe, Professor Koji Otsuka: Storage batteries, the latest analytic technology, micro/nanoscale separation analysis Lecture 9: High polymer chemistry field: Professor Kazuo Tanaka: High-performance materials pioneered by high polymer chemistry - from familiar to advanced materials Lecture 10: High polymer chemistry field: Professor Hiroshi Watanabe: Motion and relaxation of high polymers Lecture 11: Biochemistry field: Professor Yasuo Mori: Life-likeness of matter Lecture 12: Biochemistry field: Professor Mototsugu Eiraku: Organogenesis technology using stem cells Lecture 13: Chemical engineering field: Professor Motoaki Kawase, Professor Kenichiro Sotowa, Professor Kazuhiro Mae, Professor Shuji Matsusaka: Quantitative relationship of matter in chemical processes, energy balance and global environmental conservation Lecture 14: Chemical engineering field: Professor Motoaki Kawase, Professor Kenichiro Sotowa, Professor Kazuhiro Mae, Professor Shuji Matsusaka: Quantitative relationship of matter in chemical processes, energy balance and global environmental conservation Lecture 15: Feedback (planned) |
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| Evaluation Methods and Policy | Students are evaluated based on their performance in teaching sessions, as well as the submission status and content of their assignments and reports. (Achievement targets are evaluated according to grade evaluation policy of the Faculty of Engineering.) | |||
| Course Requirements | Students are not required to have specialized prior knowledge of chemistry. | |||
| Study outside of Class (preparation and review) | Students are given appropriate instructions during teaching sessions, and are required to review printouts and other materials distributed during these sessions. | |||
| Textbooks | Textbooks/References | Not used | ||
| References, etc. | Others; materials are introduced in lectures when needed. | |||
| Related URL | ||||
