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Lecture
2D Electronic Devices and Materials
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Related lectures (29)
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Introduction to 2D Materials
Introduces 2D materials, FETs, optoelectronics, post-CMOS concepts, and the historical impact of Moore's Law on semiconductor devices.
Logic Systems: TTL Gates and Analog Aspects
Explores TTL gates, analog aspects, and various logic gates in digital circuits.
Van der Waals Materials: Properties and Applications
Explores the programmable nature of van der Waals materials and their unique properties, including twistronics and quantum transport.
Beyond CMOS: Emerging Concepts and Limits
Covers fundamental limits to power dissipation, emerging 2D material concepts, and excitonic devices for reversible computing.
Spectroscopy: Electronic Properties and Techniques
Explores energy spectroscopy techniques like XPS and UPS, Auger spectroscopy, surface sensitivity, and graphene band structure.
Ultrafast Carrier and Spin Dynamics in 2D Semiconductors
Reviews ultrafast carrier and spin dynamics in 2D semiconductors and their heterostructures, exploring unique optical responses and novel applications.
Electronic applications enabled by two-dimensional materials
Delves into the potential of two-dimensional materials for electronic applications, covering their properties, challenges, and future prospects.
Logic Systems: Karnaugh Maps and TTL Gates
Explores Karnaugh maps, TTL gates, analog aspects of digital logic, and prime implicants.
Beyond CMOS Devices: Limits and Concepts
Delves into the fundamental limits of power dissipation in computing and explores emerging concepts using 2D materials.
Graphene: Quantum Properties and Nanoribbons
Explores graphene's quantum conductance, special electronic properties, nanoribbon fabrication, and edge effects.
