有機材料化學
Organic Materials Chemistry
Organic Materials Chemistry
課程目標及內涵 (Course Objectives and Contents)
PartⅠ:有機薄膜電晶體:
1. Thin-Film Transistors – A Historical Perspective
2. The Development of and Advances in Amorphous and Polycrystalline Si Materials and Devices
3. Vacuum-Deposited Organic Thin-Film Field-Effect Transistors Based on Small Molecules
4. Organic Transistors: Materials, Patterning Techniques and Applications
5. Polymer Transistor Circuits Fabricated by Solution Processing and Direct Printing
6. Organic-Inorganic Hybrid Thin-Film Transistors
Part II:有機太陽能電池導論:
1. Introduction to Solar Cell and Basic Principle of PV
2. Electrons and Holes in Semiconductors
3. Generation and Recombination
4. Si and Ⅲ-Ⅴ Based Solar Cells) and Thin film Based Solar Cells
5. Organic Photovoltaic Cell and Dye-Sensitized Solar Cell
6. Fabrication device of DSSCs and OPV and Optics Properties of Solar Cells
Part III:有機發光二極體:
1. Introduction to Flat Panel Displays
2. Chromatology of Display
3. Liquid Crystal Displays
4. Introduction OLED
5. Organic Materials and Inorganic Light Emitting Diodes
6. White OLEDs Fabrication and Design Structure of Devices
7. Device Packaging Technology本課程重點在三個部份:
(1)有機薄膜電晶體:針對有機半導體元件做一深入且偏向實際物理結構、特性、及量測方面之介紹。課程著重於有機半導體材料之探討、有機場效電晶體之相關性及元件結構設計之相關問題。
(2)有機太陽能電池導論:針對太陽能電池材料介紹,包括發展歷史及材料開發應用其奈米多孔洞元件。課程前半段著元件物理之問題探討,後半段著重材料特性及材料設計之相關性及元件設計之相關問題。
(3)有機發光二極體:介紹目前各種顯示技術之原理、應用、製程及材料設計。其中包括顯示器的演進過程,從CRT、LCD及次世代的顯示器OLED的介紹,利用軟性基板及有機薄膜電晶體發展可撓性顯示器與照明元件之應用。使學生了解能階理論;摻雜效應;有機發光二極體理論;合成與加工。
(1) Organic Thin Film Transistor: An in-depth and practical introduction to the physical structure, characteristics, and measurement of organic semiconductor elements. The course focuses on the discussion of organic semiconductor materials, the relevance of organic field effect transistors and related issues in device structure design.
(2) Introduction to organic solar cells: introduction to solar cell materials, including development history and material development and application of nanoporous components. The first half of the course discusses the problems of component physics, and the second half focuses on the correlation between material properties and material design and related issues of component design.
(3) Organic Light Emitting Diodes: Introduce the principles, applications, manufacturing processes and material design of various current display technologies. It includes the evolution of displays, from the introduction of CRT, LCD and next-generation display OLEDs, to the development of flexible displays and lighting components using flexible substrates and organic thin film transistors. Make students understand energy level theory; doping effect; organic light-emitting diode theory; synthesis and processing.
■ 多元教學方式 (Muliti-Teaching Methods)
說明:除了課堂講授與考試測驗之外,本課程在學期中可能會運用到以下哪些教學方式,以期能進一步提升學生學習成效
1.小組討論
2.邀請其他來賓進行專題演講
3.期末報告/策展/發表
4.配合專業軟體的使用與教學
5.配合使用數位教學平台(tMoodle)、愛學網(iLearn)
Explanation: In addition to classroom lectures and exam exams, which of the following teaching methods may be used in this course during the semester, in order to further improve students' learning effectiveness
1. Group discussion
2. Invite other guests to give a keynote speech
3. Final report/curation/publication
4. Cooperate with the use and teaching of professional software
5. Collaborate with the use of digital teaching platforms such as tMoodle and iLearn
主要參考書籍/資料 (Textbooks and References)
1. Thin-Film Transistors (Cherie R. Kagan and Paul Andry) 2003.
2. Organic Field-Effect Transistors (Zhenan Bao and Jason Locklin) 2007.
3. The Physics of Solar Cells (J. Nelson), Imperial College Press, 2003.
4. 太陽能電池:原理、元件、材料、製程與檢測技術 (翁敏航、楊茹媛、管鴻、
晁成虎合著),東華出版社, 2011.
5. Flexible Flat Panel Displays (G. P. Crawford), John Wiley & Sons, 2005.
6. Introduction to Flat Panel Displays (J. -H. Lee, D. N. Liu, and S. -T. Wu),
Wiley & Sons,2008.
7. OLED Materials and Devices of Dream Displays (陳金鑫、黃孝文合著),五南
圖書出版社, 2007.