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Syllabus

Infomation of Course

Program Common [공통(상호인정)] Course Type Elective(Graduate) [ 선택(석/박사) ]
Course Code 39.572 Course No CBE572
Section English English
L:L:C(AU) 3:0:3.0(0) Exam time
(classroom)		 - Tue: 13:00~16:00
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Course Title Inorganic Materials Processing [ 무기재료공정 ]
Class time
(classroom)		 Tue: 13:00~14:30 / (W1)Applied Engineering Bldg. [ (W1)응용공학동 ] (2122)
Thu: 13:00~14:30 / (W1)Applied Engineering Bldg. [ (W1)응용공학동 ] (2122)
Notice

Information of Professor

Name 이도창(Lee, DohChang)
Department 생명화학공학과(Department of Chemical and Biomolecular Engineering)
Phone 042-350-3937
E-Mail dclee@kaist.ac.kr

Plan of Lecture

Syllabus File CBE572-2011-Syllabus.pdf
Syllabus URL
Summary of Lecture In CBE 572, we discuss recent progress in chemical aspects of inorganic materials processing. The course aims to provide a broad perspective on the processing of inorganic materials in general, yet processing of nanoscale inorganic objects will also be introduced. The primary target audience of CBE 572 is chemical engineering graduate students whose research interests (may even remotely) overlap with inorganic materials, chemical processing, or inorganic product design. References and recent publications are the primary sources of classroom discussion.
Material for Teaching ? David Mitzi, 'Solution Processing of Inorganic Materials,” Wiley, New Jersey, 2009.
? Hong H. Lee, 'Fundamentals of microelectronics processing,” McGraw-Hill, Singapore, 1990.
? Richard Tilley, 'Understanding Solids,” Wiley, New Jersey, 2004.
? T. Kodas and M. Hampden-Smith, 'Aerosol Processing of Materials,” Wiley-VCH, New York, 1999.
? C. Jeffrey Brinker and George W. Scherer, 'Sol-Gel Science,” Academic Press, New Jersey, 1990.
Evaluation Criteria Attendance: 30%
Peer lecturing: 25%
Homework: 25%
Mid-term exam: 10%
Final exam: 10%
Lecture Schedule 1. Motivations and Scope
2. Crystallography (RT Chapter 5, HHL Chapter 3)
3. Classes of Materials (RT Chapter 6)
4. Structures and Chemical Bondings (RT Chapter 1-2)
5. States of Aggregation, Phase Diagrams (RT Chapter 3-4)
6. Chemical Vapor Deposition - some chemical engineering principles (HHL Chapter 6) 7. Sol-gel Science (Brinker Chapter 1,4) / Outdoor class
8. Sol-gel Science (Brinker Chapter 7,8,11)
9. Aerosol Processing (Kodas Chapter 1-5)
10. Aerosol Processing (Kodas Chapter 6-9)
11. Aerosol Processing (Kodas Chapter 10-13)
12. Aerosol Processing (Kodas Chapter 14, Brinker Chapter 13)
13. Plasma Reactors (HHL Chapter 9-10)
14. Student Lecturing - Inorganic Materials Processing : (3 groups/session)
15. Future Directions for Solution-based Processing (DM Chapter 14)
Memo