T3670 教學大綱表

教學大綱表 (113學年度第1學期)

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課程名稱 Course Title	(中文) 材料電子特性 (英文) Electronic Properties Of Materials			開課單位 Departments	材料工程學系
				課程代碼 Course No.	T3670
授課教師 Instructor	胡毅
學分數 Credit	3.0	必/選修 core required/optional	選修	開課年級 Level	大三
先修科目或先備能力(Course Pre-requisites)：Non
課程概述與目標(Course Overview and Goals)：介紹各種材料的電子相關特性，從最基本的材料組成元素所展現的電子相關特性開始，進入到複合材料所展現的電性，然後是結構造成的電性改變，之後是各種完成的元件所展現的電性。讓學生能從最基本的開始學起，而在最後對各種材料與元件所呈現的電子特性有所基本上的瞭解。
教科書(Textbook)	作者：S. O. Kasap 書名：Principles of Electronic Materials and Devices 出版社：McGraw-Hill 出版年：2006 ISBN 007-124458-1
參考教材(Reference)	材料電子學
圖書館電子書(E-book of the Library)	non

課程大綱 Syllabus			學生學習目標 Learning Objectives	單元學習活動 Learning Activities	學習成效評量 Evaluation	備註 Notes
序 No.	單元主題 Unit topic	內容綱要 Content summary	學生學習目標 Learning Objectives	單元學習活動 Learning Activities	學習成效評量 Evaluation	備註 Notes
1	Elementary Materials Science Concepts	1. Atomic structure and atomic number 2. Atomic mass and mole 3. Bonding and types of solids 4. Kinetic molecular theory	1. Atomic structure and atomic number 2. Atomic mass and mole 3. Bonding and types of solids 4. Kinetic molecular theory
2	Electrical and Thermal Conduction in Solids	1. Classical Theory 2. Temperature Dependence of Resistivity 3.Matthiessen's and Nordheim's Rules 4.Resistivity of Mixtures and Porous Materials	1. Classical Theory 2. Temperature Dependence of Resistivity 3.Matthiessen's and Nordheim's Rules 4.Resistivity of Mixtures and Porous Materials
3	Electrical and Thermal Conduction in Solids	1. Classical Theory 2. Temperature Dependence of Resistivity 3.Matthiessen's and Nordheim's Rules 4.Resistivity of Mixtures and Porous Materials	1. Classical Theory 2. Temperature Dependence of Resistivity 3.Matthiessen's and Nordheim's Rules 4.Resistivity of Mixtures and Porous Materials
4	Elementary Quantum Physics	1. Photons 2. The Electron as a Wave 3. Infinite Potential Well: A Confined Electron 4. Heisenberg's Uncertainty Principle	1. Photons 2. The Electron as a Wave 3. Infinite Potential Well: A Confined Electron 4. Heisenberg's Uncertainty Principle
5	Elementary Quantum Physics	1. Photons 2. The Electron as a Wave 3. Infinite Potential Well: A Confined Electron 4. Heisenberg's Uncertainty Principle	1. Photons 2. The Electron as a Wave 3. Infinite Potential Well: A Confined Electron 4. Heisenberg's Uncertainty Principle
6	Modern Theory of Solids	1. Hydrogen Molecule 2. Band Theory of Solids 3. Semiconductors 4. Electron Effective Mass	1. Hydrogen Molecule 2. Band Theory of Solids 3. Semiconductors 4. Electron Effective Mass
7	Modern Theory of Solids	1. Hydrogen Molecule 2. Band Theory of Solids 3. Semiconductors 4. Electron Effective Mass	1. Hydrogen Molecule 2. Band Theory of Solids 3. Semiconductors 4. Electron Effective Mass
8	Modern Theory of Solids	1. Hydrogen Molecule 2. Band Theory of Solids 3. Semiconductors 4. Electron Effective Mass	1. Hydrogen Molecule 2. Band Theory of Solids 3. Semiconductors 4. Electron Effective Mass
9	Modern Theory of Solids	1. Hydrogen Molecule 2. Band Theory of Solids 3. Semiconductors 4. Electron Effective Mass	1. Hydrogen Molecule 2. Band Theory of Solids 3. Semiconductors 4. Electron Effective Mass
10	期中測驗	期中測驗	期中測驗
11	Semiconductors	1. Intrinsic Semiconductors 2. Exriinsic Semiconductors 3. Temperature Dependence 4. Reconbination and Minority Carrier Injection	1. Intrinsic Semiconductors 2. Exriinsic Semiconductors 3. Temperature Dependence 4. Reconbination and Minority Carrier Injection
12	Semiconductors	1. Intrinsic Semiconductors 2. Exriinsic Semiconductors 3. Temperature Dependence 4. Reconbination and Minority Carrier Injection	1. Intrinsic Semiconductors 2. Exriinsic Semiconductors 3. Temperature Dependence 4. Reconbination and Minority Carrier Injection
13	Semiconductors	1. Intrinsic Semiconductors 2. Exriinsic Semiconductors 3. Temperature Dependence 4. Reconbination and Minority Carrier Injection	1. Intrinsic Semiconductors 2. Exriinsic Semiconductors 3. Temperature Dependence 4. Reconbination and Minority Carrier Injection
14	Semiconductors	1. Intrinsic Semiconductors 2. Exriinsic Semiconductors 3. Temperature Dependence 4. Reconbination and Minority Carrier Injection	1. Intrinsic Semiconductors 2. Exriinsic Semiconductors 3. Temperature Dependence 4. Reconbination and Minority Carrier Injection
15	Semiconductor Devices	1. Ideal pn Junction 2. pn Junction Band Diagram 3. Depletion Layer Capacitance of the pn Junction 4. Diffusion Capacitance and Dynamic Resistance	1. Ideal pn Junction 2. pn Junction Band Diagram 3. Depletion Layer Capacitance of the pn Junction 4. Diffusion Capacitance and Dynamic Resistance
16	期末測驗	期末測驗	期末測驗

彈性教學週活動規劃

序 No.	實施期間 Period	實施方式 Content	教學說明 Teaching instructions	彈性教學評量方式 Evaluation	備註 Notes
1	起:2024-12-30 迄:2025-01-10	2.非同步線上課程 Asynchronous online course	提供修讀資料，包括閱讀講義及影片。	繳交作業及心得。須符合資料內容。	會在課堂中說明清楚。

教學要點概述：
1.自編教材 Handout by Instructor：
■ 1-1.簡報 Slids
□ 1-2.影音教材 Videos
□ 1-3.教具 Teaching Aids
□ 1-4.教科書 Textbook
□ 1-5.其他 Other
□ 2.自編評量工具/量表 Educational Assessment
■ 3.教科書作者提供 Textbook

成績考核 Performance Evaluation：期末考：30% 期中考：30% 報告：10% 彈性教學：10% 平時考：10% 作業：10%

教學資源(Teaching Resources)：
■ 教材電子檔(Soft Copy of the Handout or the Textbook)
■ 課程網站(Website)
課程網站(Website)：網路硬碟(二)
扣考規定：https://curri.ttu.edu.tw/p/412-1033-1254.php