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Applied Nanotechnology in Electronics

This course explores the fundamental principles and applications of nanotechnology in electronics and computing. It covers nanomaterials, nanoelectronic devices, quantum computing basics, fabrication techniques, and emerging trends. Students will gain insights into the impact of nanoscale science on modern electronic and computing systems, preparing them for future advancements in the field.

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Course Duration:

21 hours

Level:

Intermediate

Course Objectives

  • Understand the fundamental concepts of nanotechnology and its relevance to electronics and computing.

  • Identify and analyze different types of nanomaterials and their electronic properties.

  • Explain the principles of nanoelectronics, including quantum effects and miniaturisation.

  • Explore the role of nanotechnology in emerging computing paradigms such as quantum computing and neuromorphic computing.

  • Understand advanced fabrication techniques for nanoelectronic devices.

  • Evaluate real-world applications and future trends in nanotechnology-driven electronics and computing.

  • Conduct hands-on projects and case studies to apply theoretical knowledge to practical applications.

Prerequisites

  • Basic knowledge of electronics and semiconductor physics

  • Understanding of fundamental computing concepts

  • Introductory physics, including quantum mechanics principles (preferred but not mandatory)

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