
Advanced Nanotechnology
This advanced course delves into the principles, fabrication techniques, and cutting-edge applications of nanotechnology. It covers topics such as quantum mechanics at the nanoscale, advanced nanomaterials, state-of-the-art fabrication and characterization techniques, and applications in electronics, medicine, energy, and nanorobotics. The course also explores computational nanotechnology, AI-driven material discovery, and regulatory and ethical considerations in nanotechnology commercialization.
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Course Duration:
36 hours
Level:
Advanced

Course Objectives
•Apply quantum mechanics and nanoscale physics principles to nanotechnology.
•Understand advanced nanomaterials and their synthesis techniques.
•Utilize cutting-edge nanofabrication and characterization tools.
•Explore the role of nanotechnology in emerging fields such as AI, nanorobotics, and neuromorphic computing.
•Assess the industrial, regulatory, and ethical implications of nanotechnology.
Prerequisites
•A strong foundation in physics, chemistry, or materials science.
•Prior knowledge of basic nanotechnology concepts (recommended).
•Familiarity with mathematical modeling and computational techniques (beneficial but not mandatory).
