教學課程綱要

著重有機電子材料科學之基礎及應用結合，講授有機材料分子設計、構形控制、精準合成技術、特性調控、微結構分析、精密加工技術及電子光電元件應用所需之基礎知識，且將材料科學之新發展趨勢及材料基因概念導入課程內容，包括綠色永續材料、循環再生材料、軟性電子材料、高頻通訊材料、穿戴式元件、電子皮膚等，並配合實作應用示範，使學生能獲得完整領域知識。

Electronic and Optoelectronic Polymers

Electronic and Optoelectronic Polymers– 2022

(ChemE 5015, 3 Credit course for senior or graduate students)

By Professor Wen-Chang Chen

I. Outline:

Specialty Chemicals and Materials for Electronic Industry (6 hr)
Functional Polymers for Electronic Package and Communication (9 hr):
(1)Roles of polymers in Electronic Packaging and Printed Circuit Board
(2)Polymers for Electronic Packaging.
(3)Polymers for Printed Circuit Board
(4)Polymers for Communication
Development of Conductive Polymers (6 hr):
(1)Discovery of Conductive Polymers
(2)Fundamentals of Conducting Polymers: Synthesis, Conducting Mechanism, and Properties.
(3)Applications of Conducting Polymers
Conjugated Polymers: Fundamentals and Applications (21 hr):
(1)Design, Synthesis, and Properties of Conjugated Polymers
(2)Conjugated Polymers for Light-Emitting Diodes
(3)Conjugated Polymers for Field Effect Transistors
(4)Conjugated Polymers for Photovoltaic Cells
(5)Organic Electrical Memory Materials and Devices
(6)Conjugated Polymers for Stretchable Electronics

II.Prerequisites:Organic Chemistry or Polymer Chemistry

III.Grading Policy:Midterm exam (45%), Final Exam(45%),and homework and final report (20%).

IV.Lecture Notes:PowerPoint viewgraphs will be provided but no textbook.

Teaching Schedule

Week-1 Specialty Chemicals and Materials for Semiconducting Industry (1)

Week- 2 Specialty Chemicals and Materials for Semiconducting Industry (2)

Week-3 Functional Polymers for Electronic Packaging and Communication (1)

Week-4 Functional Polymers for Electronic Packaging and Communication (2)

Week-5 Functional Polymers for Electronic Packaging and Communication (3)

Week-6 Development of Conductive Polymers (1)

Week-7 Development of Conductive Polymers (2)

Week-8 Course materials review on Weeks 1-7

Week-9 Course materials review and Midterm Exam

Week-10 Conjugated Polymers: Fundamentals and Applications (1)

Week-11 Conjugated Polymers: Fundamentals and Applications (2)

Week-12 Conjugated Polymers: Fundamentals and Applications (3)

Week-13 Conjugated Polymers: Fundamentals and Applications (4)

Week-14 Conjugated Polymers: Fundamentals and Applications (5)

Week-15 Conjugated Polymers: Fundamentals and Applications (6)

Week-16 Conjugated Polymers: Fundamentals and Applications (7)

Week-17 Final Exam

Week-18 Final report on special topic of the course.

Special Topic on Organic Materials Synthesis and Applications

課號及課程識別碼 ChemE5056 524 U0650

學分: 1

開授年級:3, 4年級及研究所

開授教授: 陳文章

I.Outline

Overview on Organic Functional Polymers for Chemical Industry (3 hr), 3/8, 6:30~9:20 pm, 普通教室202.
Design, Synthesis, and Applications of High Refractive Index Polymers and Nanocomposites (3 hr), 3/9 6:30~9:20 pm, 普通教室202.
(1)Group Contribution on the Design of High Refractive Index Polymers
(2)Synthesis, and Applications of High Refractive Index Polymers
(3)Synthesis, and Applications of High Refractive Index Nanocomposites
Synthesis, Morphology, and Applications of Conjugated Rod-Coil Block Copolymers (3 hr), 3/10, 6:30~9:20 pm, 普通教室202.
(1)Synthesis of Conjugated Rod-Coil Block Copolymers with Different Molecular Architectures.
(2)Morphology, and Applications of Conjugated Rod-Coil Block Copolymers
(3)Stimuli Responsive Conjugated Rod-Coil Block Copolymers
Polymers for Stretchable Electronic Device Applications (3 hr), 3/11, 6:30~9:20 pm, 普通教室202.
(1) Synthesis of Stretchable Polymers with Different Molecular Architectures.
(2) Characterization of Stretchable Polymers
(3) Stretchable Electronic and Optoelectronic Applications

5. Oral Presentation (3/18) and Final Report (due 3/31)

II. Prerequisites: Organic Chemistry or Polymer Chemistry

III. Grading Policy: Home work (40%), Oral Presentation (20%) and Final Reports (40%).

IV. Lecture Notes (ppt viewgraphs) and reference papers will be provided but no textbook.