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Advanced Nanotechnology in Electronics

This advanced course delves into cutting-edge developments in nanotechnology for electronics and computing. Topics include quantum electronics, nano-scale device fabrication, simulation techniques, and emerging applications such as quantum computing, neuromorphic computing, and flexible electronics. Students will explore theoretical models, computational simulations, and real-world case studies, preparing them for research and innovation in next-generation nanoelectronics and computing systems.

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Course Duration:

21 hours

Level:

Advanced

Course Objectives

  • Analyse the quantum mechanical principles governing nanoelectronic devices and computing architectures.

  • Explore advanced nanomaterials and their electronic and optoelectronic properties.

  • Understand and design quantum computing hardware and its integration with classical computing.

  • Examine nanoelectromechanical systems (NEMS), spintronics, memristors, and other emerging nanoelectronic devices.

  • Apply advanced fabrication and lithography techniques for nanoelectronics.

  • Utilise computational models and simulations to design and test nanodevices.

  • Investigate real-world applications, including high-performance computing, wearable electronics, and AI hardware.

  • Assess the ethical, environmental, and regulatory challenges associated with nanoelectronics.

Prerequisites

  • Strong foundation in electronics, semiconductor physics, and nanotechnology

  • Basic understanding of quantum mechanics and solid-state physics

  • Experience with computational modeling or simulation (preferred)

  • Prior coursework in microelectronics, materials science, or a related field

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