
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
