一、課程說明(Course Desc<x>ription)
<br>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
<br>論
<br>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
<br>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
<br>計(期中報告)。 
<br>The purpose of this course is to develop the knowledge of energy materials 
<br>and environmental application technologies and enable students to understand 
<br>theories of energy materials and environmental applications.
<br> The course covers five parts, namely: renewable energy and traditional 
<br>energy, energy band structure, semiconductor, and electronic physical 
<br>properties, solar cell materials, piezoelectric materials and crystal 
<br>structure, nano energy, environmental application technology and composite 
<br>energy system design ( Midterm report)
<br>
<br>
<br>二、指定用書(Text Books)
<br>自製講義與筆記
<br>
<br>
<br>三、參考書籍(References)
<br>自製講義
<br>Reference Books:
<br>1.   Energy: Its Use and the Environment, 3th Edition. THOMSON, 2002, 
<br>Authors: 
<br>Roger A. Hinrichs and Merlin Kleinbach 
<br>2.	Electronic Properties of Materials, 4th Springer Rolf E. Hummel
<br>3.	Energy Materials, Willy 2011, Authors : Duncan W. Bruce, Dermot 
<br>O'Hare, Richard I. Walton
<br>4.	Sustainable Energy-Choosing Among Options, Authors: Jefferson W. 
<br>Tester, Cambridge, MIT Press 
<br>5.	Renewable Energy-Power for a Sustainable Future, Authors: Godfrey 
<br>Boyle, Oxford University. 
<br>6.	Renewable Energy-Power for a Sustainable Future, Oxford University, 
<br>Godfrey Boyle, Solar photovoltaic.
<br>
<br>四、教學方式(Teaching Method)
<br>投影片與手寫黑板
<br>
<br>五、教學進度(Syllabus)
<br>本課程之授課內容，主要可分為下列幾點：
<br>1.	Introduction to greenhouse effect and the importance of renewable 
<br>energy
<br>2.	The category of energy: energy mechanics, renewable energy and non-
<br>renewable energy
<br>3.	Band structure, Semiconductor, and Electrical Properties: 
<br>Fundamental 
<br>theory  
<br>4.	Photovoltaic materials: Si ba<x>sed, thin-film ba<x>sed, III-V 
<br>ba<x>sed solar 
<br>cell, DSSC.
<br>5.	Nano energy and Piezoelectric materials: Piezoelectric properties, 
<br>noncentrosymmetric and centrosymmetric materials, piezoelectric energy and 
<br>energy harvesting application, Nanostructured materials, processing, 
<br>properties, and potential applications in energy related fields. 
<br>6. Introduction of nanogenerator
<br>六、成績考核(Evaluation)
<br>
<br>
<br>Mid-term report 30% and Mid-Exam: 30%
<br>Final exam:40%
<br>
<br>七、可連結之網頁位址
<br>