課程資訊
課程名稱
尖端材料之基礎與應用
Advanced Materials: Fundamentals and Applications 
開課學期
110-2 
授課對象
工學院  分子科學與技術國際研究生博士學位學程  
授課教師
林麗瓊 
課號
Phys8150 
課程識別碼
222 D5480 
班次
 
學分
3.0 
全/半年
半年 
必/選修
選修 
上課時間
星期一2,3,4(9:10~12:10) 
上課地點
 
備註
本課程以英語授課。上課教室:凝態中心212室。(CCMS room212)
總人數上限:14人 
 
課程簡介影片
 
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課程概述

In this course, students will learn the fundamental properties, synthesis methods and applications of various advanced materials, ranging from semiconductors, to quantum matters and low-dimensional nano-materials.
Start from Si technology, you will learn the thermodynamics and kinetics of bulk and thin film growth processes. Especially, the principles and development of the specific process and factors that control the material quality will be taught. In addition, some important issues like contact problem, doping and dielectric layer would be discussed. Besides Si, the second and third generation semiconductors, such as GaAs and GaN, would be introduced. Breakthroughs in synthesis of these materials have enabled or enhanced their unique properties, which can change our daily life.
After introducing the semiconductor properties and applications, we will take a step forward to a variety of materials, including ferroelectrics, oxide-based superconductor, spintronics materials, followed by energy materials such as thermoelectrics, perovskites, polymers and MOF. Low-dimensional materials from 2D, 1D to 0D will be taught in the end of the course.
 

課程目標
This multidisciplinary course will provide the knowledge of the physics and materials science of different advanced materials. Moreover, the course provides a comprehensive overview of a variety of growth methods, ranging from solution-based process, solid state synthesis, ball milling, to vapor phase deposition techniques such as sputtering, CVD, MOCVD, MBE and pulsed laser ablation.
The ultimate course objective is to enhance the critical and innovative thinking of students by in depth understanding the relationship between the growth/morphology/structure of the materials and the fundamental properties, which holds the key for realizing practical applications of these advanced materials and devices.
 
課程要求
General physics and General chemistry 
預期每週課後學習時數
 
Office Hours
另約時間 備註: Professor: Wednesday, 2-4 pm at CCMS1020 TA Zi-Liang Yang 楊子良: Wednesday, 2-4 pm at CCMS1011 (mail: R10245003@ntu.edu.tw, please make a appointment before meeting) 
參考書目
KITTEL, Charles, Introduction to Solid State Physics, 8th edition. Wiley, 2004.
CHUNG, Yip-Wah and KAPOOR, Monica, Introduction to Materials Science and Engineering, 2nd edition. CRC Press, to appear in April 2022. (1st edition published in 2006).
NAKAMURA, Shuji; CHICHIBU, Shigefusa F. (ed.). Introduction to Nitride Semiconductor Blue Lasers and Light Emitting Diodes. CRC Press, 2000.
NAKAMURA, Shuji; PEARTON, Stephen; FASOL, Gerhard. The Blue Laser Diode: The Complete Story. Springer Science & Business Media, 2000.
XIAO, Hong. Introduction to Semiconductor Manufacturing Technology, 2nd edition. SPIE Press E-Books, 2012.
PIERSON, H. O. Handbook of Chemical Vapor Deposition. Noyes Publication, 1999.
JONES, Anthony C.; HITCHMAN, Michael L. (ed.). Chemical Vapor Deposition: Precursors, Processes and Applications. Royal Society of Chemistry, 2009.
 
指定閱讀
 
評量方式
(僅供參考)
   
課程進度
週次
日期
單元主題
Week 1
2/14  Si (I), bulk and thin film growth, semiconductor fundamentals, doping, contact 
Week 2
2/21  Si (II), dielectric, devices, beyond Moore's law 
Week 3
2/28  National Holiday 
Week 4
3/7  GaAs, MBE growth, direct band gap, LEDs, laser diodes, etc. 
Week 5
3/14  GaN, MOCVD growth, alloying, blue LED, lighting and HEMT 
Week 6
3/21  Lecturer: Wei-Tin Chen(weitinchen@ntu.edu.tw)
Bulk crystals, solid state synthesis (& high pressure), X-ray diffraction, ferroelectrics 
Week 7
3/28  Spintronics & quantum matters (I), sputtering principles & various industrial applications 
Week 8
4/4  National Holiday 
Week 9
4/11  Spintronics & quantum matters (II), pulsed laser ablation, oxide-based
SiC and AlN, high power devices
Midterm Essay Due
 
Week 10
4/18  Thermoelectrics, ball milling 
Week 11
4/25  Solar cells, polymers and perovskites, molecular designs, solution-based processes 
Week 12
5/2  MoF, design and control, catalysis, membrane separation, gas storage, medicine and energy 
Week 13
5/9  2D materials (I): various growth techniques (from solution-based to wafer-based), various characterizations tools 
Week 14
5/16  2D materials (II): electronic and optoelectronic applications 
Week 15
5/23  2D mater. for catalysis; 1D & 0D mater. for various applications 
Week 16
5/30  Final Exam (Written Test) 
Week 17
6/6  彈性補充教學週
Flexible Supplemental Teaching Week:
Oral Presentation
 
Week 18
6/13  彈性補充教學週
Flexible Supplemental Teaching Week:
Lab Tours