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Forward for Faculty & Collaborators

Forward for Faculty & Collaborators. The following presentation is a partial result of work performed at the Research Experience for Teachers (RET) through the University of Virginia Center for Diversity in Engineering and the School of Engineering and Applied Sciences.

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Forward for Faculty & Collaborators

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  1. Forward for Faculty & Collaborators The following presentation is a partial result of work performed at the Research Experience for Teachers (RET) through the University of Virginia Center for Diversity in Engineering and the School of Engineering and Applied Sciences. Special Thanks to LenoidZighle PHD, Computational Materials, School of Engineering, UVA Carolyn Vallas, PHD, Center for Diversity in Engineering, UVA Juliet Trail, Center for Diversity in Engineering, UVA

  2. Introduction to Nanotechnology By Randy Applegate At the RET sponsored by UVA and the Center for Diversity In Engineering

  3. What is Nanotechnology • the study of the controlling of matter on an atomic and molecular scale. Generally nanotechnology deals with structures sized between 1 to 100 nanometer in at least one dimension, and involves developing or modifying materials or devices within that size.

  4. Nanotechnology • is already making today’s products: • Lighter • Stronger • Faster • Smaller • More Durable

  5. How small is Nano - small? Units in nanometers (µm)

  6. Compared to Human Hair A Human Hair is about 100,000µm wide

  7. A “Nano-Scale” Demonstration http://screencast.com/t/MGMxZTcyN2E http://screencast.com/t/MzAxODc5

  8. Nanotechnology spans many Areas Information Technology Information Technology Information Technology Information Technology Information Technology Information Technology Information Technology Information Technology Information Technology Information Technology Information Technology Information Technology Mechanical Eng. & Robotics Mechanical Eng. & Robotics Mechanical Eng. & Robotics Mechanical Eng. & Robotics Mechanical Eng. & Robotics Mechanical Eng. & Robotics Mechanical Eng. & Robotics Mechanical Eng. & Robotics Mechanical Eng. & Robotics Mechanical Engineering / Robotics Biotechnology Biotechnology Biotechnology Biotechnology Biotechnology Biotechnology Biotechnology Biotechnology Transportation Transportation Transportation Transportation Advance Materials & Textiles Advance Materials & Textiles Advance Materials & Textiles Advance Materials & Textiles Advance Materials & Textiles NANOTECHNOLOGY NANOTECHNOLOGY NANOTECHNOLOGY NANOTECHNOLOGY NANOTECHNOLOGY NANOTECHNOLOGY NANOTECHNOLOGY NANOTECHNOLOGY NANOTECHNOLOGY NANOTECHNOLOGY NANOTECHNOLOGY NANOTECHNOLOGY NANOTECHNOLOGY NANOTECHNOLOGY National Security & Defense National Security & Defense National Security & Defense National Security & Defense National Security & Defense National Security & Defense Energy & Environment Energy & Environment Energy & Environment Energy & Environment Energy & Environment Energy & Environment Energy & Environment Energy & Environment Energy & Environment Food and Agriculture Food and Agriculture Food and Agriculture Food and Agriculture Food and Agriculture Food and Agriculture Food and Agriculture Food and Agriculture Food and Agriculture Food and Agriculture Food and Agriculture Food and Agriculture Food and Agriculture Food and Agriculture Food and Agriculture Medicine / Health Medicine / Health Medicine / Health Medicine / Health Medicine / Health Medicine / Health Medicine / Health Medicine / Health Medicine / Health Medicine / Health Medicine / Health Medicine / Health Medicine / Health Medicine / Health Medicine / Health Aerospace Aerospace Aerospace Aerospace Aerospace Aerospace Aerospace Aerospace Aerospace Aerospace Aerospace Aerospace Aerospace Aerospace Aerospace

  9. Nonotechnology Nanometer Nanotube Atom Atomic Level System Atomic Structure Fluence (Laser) Defects Dislocation Molecule Molecular Dynamics Computational Materials Science Newton’s Laws of Motion Key Terms

  10. Material Sciences • Atomic – level Simulations: Molecular Dynamics • Computational Research • Dislocation Dynamics

  11. Computational Materials Group • Dr. Leonid Zhiglei

  12. Emphasis of Research • Atomic – level Simulations: Molecular Dynamics • Computational Research • Dislocation Dynamics

  13. Getting a Base Line on MaterialMolecular Behavior Section of Material Molecule Relationship To other Molecules

  14. Determine Starting Point(Initial Conditions) Using Newton’s Second Law of Classic Motion

  15. How Molecule Move…

  16. Applications of Nanotechnology

  17. Current Applications burn and wound dressings, water filtration devices, paints, cosmetics, coatings, lubricants, textiles, memory/storage devices medical diagnostics, displays, sensors, drug delivery, composite materials, solid state lighting, bio-materials, nano arrays, more powerful computers, protective armor, chem-bio suits, and chem-bio sensors

  18. Future Applications 2011-15 -- nanobiomaterials, microprocessors, new catalysts, portable energy cells, solar cells, tissue/organ regeneration, smart implants 2016 and beyond – molecular circuitry, quantum computing, new materials, fast chemical analyses

  19. C:\Documents and Settings\randy.applegate\My Documents\RET at UVA\NanoGear.swf

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