Nano-materials 1,2 Syllabus

Nano materials 1

1. History, Basics and Overview of Technology Development, Nanoscience and Molecular Nanotechnology
2. The principles of particles and their growth
3. characterization of nanomaterials and their properties
4. Solid Solutions
5. Formation of nanoparticles
6. Particle size control, morphology, structure, composition, and surface modification at the micro and nano scales
7. Nanostructures
8. Classification of nanomaterials
9. Physical Properties of Nanomaterials
10. Applications of nanotechnology
11. Carbon Nano Tubes (synthesis, applications and market)
12. Advanced nanotechnology
13. Nano-scale inventions
14. Thin Film Sensors
15. The Future of Nanotechnology
16. Molecular chemistry
17. Photonics
18. Electronics
19. Nanobiotechnology
20. Catalysts, photosynthesis and Photocell
21. Superconductors, solar energy
22. Composite Cable & Wire, Electric Power Cable, Magnets
23. Fuel cells, membranes and filters, sensors and nano machines
24. Nanotechnology in Medicine, Dentistry, Pharmacy, Automotive Industry, Health and Environment

Nano materials 2

1. Introduction to Phase Transformation and Microstructural Control at the Nanometer Scale
2. Methods of Manufacturing Nanomaterials and Inorganic Nanoparticles
3. Methods of Manufacturing Nanomaterials and organic Nanoparticles
4. Microstructural stability of nanomaterials
5. Chemical and mechanical properties of inorganic/organic nanoparticles and their relation with microstructure
6. Photolithography principles
7. Evaporation
8. Electron Beam Lithography
9. Wet/Dry Etching
10. Introducing devices for coating with high homogeneity of thin films of metals, oxides and organic matter  
11. Thin Film Layer Deposition methods
12. NanoPowders
13. Nanoparticles Gas and Liquid Phase Production
14. Bulk, nanocrystals and nanocomposites