シラバス参照
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シラバス参照
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| 講義概要/Course Information |
| 科目基礎情報/General Information |
| 授業科目名 /Course title (Japanese) |
固体・ソフトマターフォトニクス特論 | ||
|---|---|---|---|
| 英文授業科目名 /Course title (English) |
Solid-State and Soft Matter Photonics | ||
| 科目番号 /Code |
|||
| 開講年度 /Academic year |
2024年度 | 開講年次 /Year offered |
全学年 |
| 開講学期 /Semester(s) offered |
前学期 | 開講コース・課程 /Faculty offering the course |
博士前期課程、博士後期課程 |
| 授業の方法 /Teaching method |
講義 | 単位数 /Credits |
2 |
| 科目区分 /Category |
大学院専門教育科目 - 専門科目Ⅱ | ||
| 開講類・専攻 /Cluster/Department |
基盤理工学専攻 | ||
| 担当教員名 /Lecturer(s) |
庄司 暁 | ||
| 居室 /Office |
西2-309 | ||
| 公開E-mail |
satoru.shoji@uec.ac.jp | ||
| 授業関連Webページ /Course website |
https://classroom.google.com/c/NjU5Nzg1MDAzNjc4?cjc=ccuq7kq | ||
| 更新日 /Last update |
2024/03/19 19:23:40 | 更新状況 /Update status |
公開中 /now open to public |
| 講義情報/Course Description |
| 主題および 達成目標(2,000文字以内) /Themes and goals(up to 2,000 letters) |
Soft matter physics is a relatively new sub-field of solid-state physics. Materials such as liquid crystals, biomaterials, polymers and colloids demonstrate complex behavior when exposed to external stimuli but they also present several advantages. Unlike conventional hard matter, soft matter can be easily processed into various self-assembled nanostructures that exhibit strong iridescence or anti-reflective properties. Nature provides us with several soft matter photonic materials examples like bright colored butterfly wings, photonic eyes that can see in the dark or photosynthetic systems that transform sunlight into chemical energy. We will carefully study these natural systems and review several bio-inspired technologies based on nanostructured soft matter. In this course, we will focus on light manipulation in nanostructured materials as well as light harvesting or light generation in soft matter optoelectronic devices. |
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| 前もって履修 しておくべき科目(1,000文字以内) /Prerequisites(up to 1,000 letters) |
There are no compulsory prerequisites but having studied one of the following courses would be an advantage: 光波工学 (Introduction to photonics), 波動と光(Waves and Optics), 固体物理工学第一・第二(Solid-State Physics I and II), 物理化学第一・第二(Physical Chemistry I and II) or 固体電子論 (Fundamentals of Solid-State Electronics) |
| 前もって履修しておくこ とが望ましい科目(1,000文字以内) /Recommended prerequisites and preparation(up to 1,000 letters) |
There are no compulsory prerequisites but having studied one of the following courses would be an advantage: 光波工学 (Introduction to photonics), 波動と光(Waves and Optics), 固体物理工学第一・第二(Solid-State Physics I and II), 物理化学第一・第二(Physical Chemistry I and II) or 固体電子論 (Fundamentals of Solid-State Electronics) |
| 教科書等(1,000文字以内) /Course textbooks and materials(up to 1,000 letters) |
Lecture notes as well as other material related to this course will be uploaded directly to Google Classroom |
| 授業内容と その進め方(2,000文字以内) /Course outline and weekly schedule(up to 2,000 letters) |
Bb This course will discuss the following topics related to solid-/soft-matter materials, and their optical/mechanical properties and applications. Note: The following weekly schedule is subject to change 1. Solid-state soft matter photonics: definitions and course modules 2. General properties of soft matter: optical property 3. General properties of soft matter: mechanical property 4. Colors in nature: light absorption and structural coloration 5. Natural and bio-inspired photonic technologies (I) (Butterfly wings) 6. Natural and bio-inspired photonic technologies (II) (Chameleon skin) 7. Natural and bio-inspired photonic technologies (I) (Moth eye) 8. Optical properties of Nano-scale particles/structures 9. Dendrites, Fractals, self-organization 10. Micro-/Nano-fabrication technologies (I) (top-down methods) 11. Micro-/Nano-fabrication technologies (I) (bottom-up methods) 12. Soft and flexible organic semiconductors 13. Soft matter lighting technology I (Organic LEDs and lasers) 14. Soft matter lighting technology II (Color tuning through energy transfer) 15. Soft matter lighting technology III (Liquid crystal displays) Type II |
| 実務経験を活かした 授業内容 (実務経験内容も含む) /Course content utilizing practical experience |
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| 授業時間外の学習 (予習・復習等)(1,000文字以内) /Preparation and review outside class(up to 1,000 letters) |
Lecture notes as well as other material related to this course will be uploaded to Google Classroom.(class code : ccuq7kq) |
| 成績評価方法 および評価基準 (最低達成基準を含む) (1,000文字以内) /Evaluation and grading (up to 1,000 letters) |
(a) Homework and reports: 50% (Homework quality/contents, efforts towards self-study) (b) Motivation and participation: 20% (On-time submission of reports, quality of the questions asked in Google Classroom) (c) Final exam: 30% A total score (a + b + c) over 60% is required to pass this course. |
| オフィスアワー: 授業相談(1,000文字以内) /Office hours(up to 1,000 letters) |
If you have any questions/comments, you can them to the following address anytime; Satoru.Shoji@uec.ac.jp Or, you may visit to the room W2-309 to have face-to-face meeting with the Lecturer. |
| 学生へのメッセージ(1,000文字以内) /Message for students(up to 1,000 letters) |
The lecture covers a broad range of exciting topics and you will be given the opportunity to learn about soft matter photonics from various points-of-view. In fact, the knowledge you will acquire is a blend of physical chemistry, optics, device engineering and materials science. I hope you will enjoy this lecture that links fundamental science with recent advanced technologies. |
| その他 /Others |
N/A |
| キーワード /Keywords |
polymers, self-organization, photonic crystals, bio-inspired nanostructures, liquid crystals, 0rganic electronics, LCD, OLED |