教學大綱表 (102學年度 第1學期)
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課程名稱
Course Title		 (中文) 高等電化學(一)
(英文) 		開課單位
Departments
課程代碼
Course No.		 T5571
授課教師
Instructor		 吳溪煌
學分數
Credit		 3.0 必/選修
core required/optional		 選修 開課年級
Level		 研究所
先修科目或先備能力(Course Pre-requisites):化學
課程概述與目標(Course Overview and Goals): 作為材料學門的基礎科目,本課程將著重於促進同學對電化學基本理論的理解。
教科書(Textbook) Carl H. Hamann, Andrew Hamnett, Wolf Vielstich, Electrochemistry, Wiley-VCH, 1998
參考教材(Reference) Philip H. Rieger, Electrochemistry,
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

No.		 單元主題
Unit topic		 內容綱要
Content summary
1 Foundations, Definitions, and Concepts 1. What is Electrochemistry
2. Major components of electrochemical cells
3. Faraday’s LawUnits
4. Units 		1. What is Electrochemistry
2. Major components of electrochemical cells
3. Faraday’s LawUnits
4. Units		  
2 Foundations, Definitions, and Concepts 1. What is Electrochemistry
2. Major components of electrochemical cells
3. Faraday’s LawUnits
4. Units 		1. What is Electrochemistry
2. Major components of electrochemical cells
3. Faraday’s LawUnits
4. Units		  
3 Electrical Conductivity and Interionic Interactions 1. Empirical Laws of Electrolyte Conductivity
2. Ionic Mobility
3. Theory of Electrolyte Conductivity
4. Concept of Activity
5. Properties of Weak Electrolyte
6. Applications of Conductivity Measurements 		1. Empirical Laws of Electrolyte Conductivity
2. Ionic Mobility
3. Theory of Electrolyte Conductivity
4. Concept of Activity
5. Properties of Weak Electrolyte
6. Applications of Conductivity Measurements		  
4 Electrical Conductivity and Interionic Interactions 1. Empirical Laws of Electrolyte Conductivity
2. Ionic Mobility
3. Theory of Electrolyte Conductivity
4. Concept of Activity
5. Properties of Weak Electrolyte
6. Applications of Conductivity Measurements 		1. Empirical Laws of Electrolyte Conductivity
2. Ionic Mobility
3. Theory of Electrolyte Conductivity
4. Concept of Activity
5. Properties of Weak Electrolyte
6. Applications of Conductivity Measurements		  
5 Electrical Conductivity and Interionic Interactions 1. Empirical Laws of Electrolyte Conductivity
2. Ionic Mobility
3. Theory of Electrolyte Conductivity
4. Concept of Activity
5. Properties of Weak Electrolyte
6. Applications of Conductivity Measurements 		1. Empirical Laws of Electrolyte Conductivity
2. Ionic Mobility
3. Theory of Electrolyte Conductivity
4. Concept of Activity
5. Properties of Weak Electrolyte
6. Applications of Conductivity Measurements		  
6 Electrode Potentials and Double-Layer Structure at Phase Boundaries 1. Determination of Electrode Potentials
2. Liquid-junction Potentials
3. Membrane Potentials
4. The Electrolyte Double-layer
5. Potential at Semiconductor Electrodes
6. Applications of Potential Measurements 		1. Determination of Electrode Potentials
2. Liquid-junction Potentials
3. Membrane Potentials
4. The Electrolyte Double-layer
5. Potential at Semiconductor Electrodes
6. Applications of Potential Measurements		  
7 Electrode Potentials and Double-Layer Structure at Phase Boundaries 1. Determination of Electrode Potentials
2. Liquid-junction Potentials
3. Membrane Potentials
4. The Electrolyte Double-layer
5. Potential at Semiconductor Electrodes
6. Applications of Potential Measurements 		1. Determination of Electrode Potentials
2. Liquid-junction Potentials
3. Membrane Potentials
4. The Electrolyte Double-layer
5. Potential at Semiconductor Electrodes
6. Applications of Potential Measurements		  
8 Electrode Potentials and Double-Layer Structure at Phase Boundaries 1. Determination of Electrode Potentials
2. Liquid-junction Potentials
3. Membrane Potentials
4. The Electrolyte Double-layer
5. Potential at Semiconductor Electrodes
6. Applications of Potential Measurements 		1. Determination of Electrode Potentials
2. Liquid-junction Potentials
3. Membrane Potentials
4. The Electrolyte Double-layer
5. Potential at Semiconductor Electrodes
6. Applications of Potential Measurements		  
9 Electrical Potentials and Electrical Current 1. Cell Voltage
2. Current-Potential Curve
3. Concentration Overpotential 		1. Cell Voltage
2. Current-Potential Curve
3. Concentration Overpotential		  
10 Electrical Potentials and Electrical Current 1. Cell Voltage
2. Current-Potential Curve
3. Concentration Overpotential 		1. Cell Voltage
2. Current-Potential Curve
3. Concentration Overpotential		  
11 Electrical Potentials and Electrical Current 1. Cell Voltage
2. Current-Potential Curve
3. Concentration Overpotential 		1. Cell Voltage
2. Current-Potential Curve
3. Concentration Overpotential		  
12 Cells and Batteries 1. Components of A Cell
2. Operation of A Cell
3. Theoretical Cell Voltage & Capacity
4. Classification of Cells & Batteries 		1. Components of A Cell
2. Operation of A Cell
3. Theoretical Cell Voltage & Capacity
4. Classification of Cells & Batteries		  
13 Cells and Batteries 1. Components of A Cell
2. Operation of A Cell
3. Theoretical Cell Voltage & Capacity
4. Classification of Cells & Batteries 		1. Components of A Cell
2. Operation of A Cell
3. Theoretical Cell Voltage & Capacity
4. Classification of Cells & Batteries		  
14 Practical Batteries 1. Alkaline-Manganese Batteries
2. Nickel-Cadmium Batteries
3. Nickel-Metal Hydride Batteries
4. Lithium Primary Batteries
5. Lithium Secondary Batteries 		1. Alkaline-Manganese Batteries
2. Nickel-Cadmium Batteries
3. Nickel-Metal Hydride Batteries
4. Lithium Primary Batteries
5. Lithium Secondary Batteries		  
15 Practical Batteries 1. Alkaline-Manganese Batteries
2. Nickel-Cadmium Batteries
3. Nickel-Metal Hydride Batteries
4. Lithium Primary Batteries
5. Lithium Secondary Batteries 		1. Alkaline-Manganese Batteries
2. Nickel-Cadmium Batteries
3. Nickel-Metal Hydride Batteries
4. Lithium Primary Batteries
5. Lithium Secondary Batteries		  
16 Practical Batteries 1. Alkaline-Manganese Batteries
2. Nickel-Cadmium Batteries
3. Nickel-Metal Hydride Batteries
4. Lithium Primary Batteries
5. Lithium Secondary Batteries 		1. Alkaline-Manganese Batteries
2. Nickel-Cadmium Batteries
3. Nickel-Metal Hydride Batteries
4. Lithium Primary Batteries
5. Lithium Secondary Batteries		  
17 Practical Batteries 1. Alkaline-Manganese Batteries
2. Nickel-Cadmium Batteries
3. Nickel-Metal Hydride Batteries
4. Lithium Primary Batteries
5. Lithium Secondary Batteries 		1. Alkaline-Manganese Batteries
2. Nickel-Cadmium Batteries
3. Nickel-Metal Hydride Batteries
4. Lithium Primary Batteries
5. Lithium Secondary Batteries		  
18 Fuel Cells 1. PEM Fuel Cell
2. Phosphoric Acid Fuel Cells
3. Molten Carbonate fuel cells
4. Solid Oxide fuel cells
5. Direct methanol fuel cells 		1. PEM Fuel Cell
2. Phosphoric Acid Fuel Cells
3. Molten Carbonate fuel cells
4. Solid Oxide fuel cells
5. Direct methanol fuel cells		  


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: 平時考:30%   期中考:30%   期末考:30%   其他評量: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)
扣考規定:https://curri.ttu.edu.tw/p/412-1033-1254.php