Energy Materials Lab
MOES430
Characteristics of Nanomaterials and Their Applications (Undergraduate level)
Taught:
annually, autumn quarter
Lectures:
Mondays, 9:10 AM-12:00 AM
Textbook:
Self-edited handouts
Course Outline:
1. Introduction of Nanomaterials
2. Properties of Nanomaterials
3. Characterization of Nanomaterials
4. Applications
Grading:
1.Mid-Term exam:35%
2.Final exam:35%
3.Oral exam:20%
4.Participation:10%
MOES591
Materials Chemistry (Graduate level)
Taught:
annually, autumn quarter
Lectures:
Tuesdays, 9:10 AM-12:00 AM
Textbook:
Self-edited handouts
Course Outline:
1. The basic content of material chemistry, including the structure, properties and
preparation of materials.
2. High-performance materials and functional materials.
Grading:
1.Mid-Term exam:30%
2.Final exam:30%
3.Oral exam:30%
4.Participation:10%
MOES319
MOES319
Polymer Physics (Undergraduate level)
Taught:
annually, spring quarter
Lectures:
Wednesdays, 13:10 PM-16:00 PM
Textbooks:
1. Self-edited handouts
2. James Mark, Kia Ngai, William Graessley, Leo Mandelkern, Edward Samulski, Jack
Koenig and George Wignall. Physical Properties of Polymers. Cambridge University
Press. 2004
Course Outline:
1. Physical states of polymers
2. Characterization techniques
Grading:
1. Mid-Term exam:35%
2. Final exam:35%
3. Assignments:20%
4. Participation:10%
MOES593
Organic Semiconductor Materials (Graduate level)
Taught:
annually, spring quarter
Lectures:
Tuesdays, 9:10 AM-12:00 AM
Textbook:
Self-edited handouts
Course Outline:
1. Basic understanding of organic semiconductor materials
2. Various applications
Grading:
1.Mid-Term exam:25%
2.Final exam:25%
3.Oral exam:40%
4. Participation:10%