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Advanced Nanotechnology (A)

Credits: 3

Lecturers: Dr. Lee, Wei-Li 李偉立; Dr. Chuang, Tien-Ming 莊天明

Classroom: P101 Meeting Room, IoP

Class hour: Wednesday, 09:10-12:00

Course overview:

Carbon nanostructure (Dr. Lee, Wei-Li)
2/20	Lecture Ι: 0-D system, carbon-based buckyballs (fullerene) Nanostructure
2/27	Lecture ΙΙ: 2-D system, emerging material: graphene
3/6	Lecture ΙΙΙ: 1-D system, carbon nanotube
Nanomagnetism and Spintronics (Dr. Lee, Wei-Li)
3/13	Lecture IV: Introduction to magnetism
3/20	No class
3/27	Lecture V: Magnetic nanostructure
4/3	Lecture VI: Spintronics (I)
4/10	Lecture VII: Spintronics (II)
4/17	Lecture VIII: Other novel materials and their physical property
4/24	Nanostructures: fabrication and their properties
5/1	Superconductivity and its applications
5/8	Characterization 1: optical properties of materials and spectroscopy (by Kung-Hsuan Lin, ASIoP)
5/15	Characterization 2 : Scanning Tunneling Microscope
5/22	Characterization 3 : Scanning Force Microscope
5/29	Characterization 4: x-ray and other methods
6/5	Characterization 5: Transmission Electron Microscope and Electron Energy Loss Spectroscopy (by Ming-Wen Chu, NTU)
6/18	Final exam
6/19	Student study group oral presentations

 

Topics for the study group oral presentation:

• Development of non-carbon based buckyballs and their property.
• Physical property in stuffed (peapod) carbon nanotube
• Physical property of transition metal dichalcogenide
• Realistic application of graphene-based device
• Recent development of magnetic data storage technology

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