課程概述 |
1 Overview of Thin-Film Materials & Flexible Electronics.
-Background and history, emerging technologies, areas of researches, leading groups & companies
2 Properties of the Thin-Film materials: Electrical, Physical, and Optical Characteristic
-nanoelectronics, 2D materials,mechanical, thermal, resonant-cavity, photonic, & plasmonics
3 Preparation of the Thin-Film Materials:
-CVD, PVD, MOCVD, MBE, metal-assisted growth, solution & printed-based
4. Characterization of the Thin-Film Materials
- x-ray diffraction, EDS, atomic probe microscopy, profilometer, PL, transient optical measurement
5. Free-standing Thin-Film materials & Flexible Thin-Film Transistors (I)
-selective release & transfer, printing, neutral plan, Comsol modeling, electrical properties
6. Heterogeneous Integration: Contacts and Interfaces to Organic and Inorganic Electronic Devices
-thin-film & organic & soft materials: contact, defects, strain, interface-recombination
7. Flexible Thin-Film Transistors (II) in sensors, energy, and medical applications
-high-performance sensors, LED, solar-cell, and implantable electronics
8. Hybrid Flexible Electronics System & Flexible Chips
-design flexible electronics in system level, integration of different functional elements
9. Project Design
-develop your own applications |
參考書目 |
教科書: 無,自備講義以及輔助課後閱讀材料
參考書目(無需自備):
1. Cao, Guozhong. Nanostructures & nanomaterials: synthesis, properties & applications. Imperial college press, 2004.
2. Edward Sazonov, Michael R. Neuman (editors), Wearable Sensors: Fundamentals, Implementation and Applications, 2014, Academic Press/Elsevier, ISBN 978-0124186620
3. Cao, Zexian, ed. Thin film growth: physics, materials science and applications. Elsevier, 2011. |