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Nano materials 1
- History, Basics and Overview of Technology Development, Nanoscience and Molecular Nanotechnology
- The principles of particles and their growth
- characterization of nanomaterials and their properties
- Solid Solutions
- Formation of nanoparticles
- Particle size control, morphology, structure, composition, and surface modification at the micro and nano scales
- Nanostructures
- Classification of nanomaterials
- Physical Properties of Nanomaterials
- Applications of nanotechnology
- Carbon Nano Tubes (synthesis, applications and market)
- Advanced nanotechnology
- Nano-scale inventions
- Thin Film Sensors
- The Future of Nanotechnology
- Molecular chemistry
- Photonics
- Electronics
- Nanobiotechnology
- Catalysts, photosynthesis and Photocell
- Superconductors, solar energy
- Composite Cable & Wire, Electric Power Cable, Magnets
- Fuel cells, membranes and filters, sensors and nano machines
- Nanotechnology in Medicine, Dentistry, Pharmacy, Automotive Industry, Health and Environment
Nano materials 2
- Introduction to Phase Transformation and Microstructural Control at the Nanometer Scale
- Methods of Manufacturing Nanomaterials and Inorganic Nanoparticles
- Methods of Manufacturing Nanomaterials and organic Nanoparticles
- Microstructural stability of nanomaterials
- Chemical and mechanical properties of inorganic/organic nanoparticles and their relation with microstructure
- Photolithography principles
- Evaporation
- Electron Beam Lithography
- Wet/Dry Etching
- Introducing devices for coating with high homogeneity of thin films of metals, oxides and organic matter
- Thin Film Layer Deposition methods
- NanoPowders
- Nanoparticles Gas and Liquid Phase Production
- Bulk, nanocrystals and nanocomposites