一、課程說明(Course Description)
本課程目的在培養學生對能源材料與環境應用技術的認識,使學生了解能源材料與環境應用等理
論及相關技術。課程內容涵蓋五部分,分別為:再生能源與傳統能源、能帶結構、半導體與電子物
理特性、太陽能電池材料、壓電材料與晶體結構、奈米能源、環境應用技術與複合式能源系統設
計(期中報告)。
The purpose of this course is to develop the knowledge of energy materials
and environmental application technologies and enable students to understand
theories of energy materials and environmental applications.
The course covers five parts, namely: renewable energy and traditional
energy, energy band structure, semiconductor, and electronic physical
properties, solar cell materials, piezoelectric materials and crystal
structure, nano energy, environmental application technology and composite
energy system design ( Midterm report)


二、指定用書(Text Books)
自製講義與筆記


三、參考書籍(References)
自製講義
Reference Books:
1. Energy: Its Use and the Environment, 3th Edition. THOMSON, 2002,
Authors:
Roger A. Hinrichs and Merlin Kleinbach
2. Electronic Properties of Materials, 4th Springer Rolf E. Hummel
3. Energy Materials, Willy 2011, Authors : Duncan W. Bruce, Dermot
O'Hare, Richard I. Walton
4. Sustainable Energy-Choosing Among Options, Authors: Jefferson W.
Tester, Cambridge, MIT Press
5. Renewable Energy-Power for a Sustainable Future, Authors: Godfrey
Boyle, Oxford University.
6. Renewable Energy-Power for a Sustainable Future, Oxford University,
Godfrey Boyle, Solar photovoltaic.

四、教學方式(Teaching Method)
投影片與手寫黑板

五、教學進度(Syllabus)
本課程之授課內容,主要可分為下列幾點:
1. Introduction to greenhouse effect and the importance of renewable
energy
2. The category of energy: energy mechanics, renewable energy and non-
renewable energy
3. Band structure, Semiconductor, and Electrical Properties:
Fundamental
theory
4. Photovoltaic materials: Si based, thin-film based, III-V
based solar
cell, DSSC.
5. Nano energy and Piezoelectric materials: Piezoelectric properties,
noncentrosymmetric and centrosymmetric materials, piezoelectric energy and
energy harvesting application, Nanostructured materials, processing,
properties, and potential applications in energy related fields.
6. Introduction of nanogenerator
六、成績考核(Evaluation)


Mid-term report 30% and Mid-Exam: 30%
Final exam:40%

七、可連結之網頁位址