COURSE CONTENT |
||
Week |
Topics |
Study Materials |
1 |
Introduction, general info on Nanoscience and Engineering, syllabus |
Textbook, lecture notes |
2 |
Exploring Nanoworld, a brief intro to Quantum Physics, Schrodinger equation in one dimension, two dimension and three dimension |
Textbook, lecture notes |
3 |
Superposition and interference of quantumwaves, Energy eigenstates |
Textbook, lecture notes |
4 |
Distribution functions and density of states, calculation the total number of occupied states for a given system, electron transport in nanostructures |
Textbook, lecture notes |
5 |
Seeing and moving atoms, the basic principle of the STM and AFM |
Textbook, lecture notes |
6 |
Nanomaterials I, Nanostructured materials |
Textbook, lecture notes |
7 |
Nanomaterials II, New forms of Carbon |
Textbook, lecture notes |
8 |
Functional Materials |
Textbook, lecture notes |
9 |
From Microelectronics to Nanoelectronics, Emerging Quantum Devices |
Textbook, lecture notes |
10 |
Molecular electronics, |
Textbook, lecture notes |
11 |
Therapeutics and regenerative medicine |
Textbook, lecture notes |
12 |
Drug Delivery Systems |
Textbook, lecture notes |
13 |
Diagnostics |
Textbook, lecture notes |
14 |
Biomimetics |
Textbook, lecture notes |