Introduction to 2D Materials

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Building Tomorrow’s Electronics: From Atoms to Devices

Delves into the evolution of transistors, the impact of quantum effects on nano-devices, and the functionality of memristors.

Beyond CMOS Devices: Valleytronics and Excitonic Devices

Delves into valleytronics, excitonic devices, and their potential for future optoelectronic applications.

Contacts: Semiconductor Devices II

Explores semiconductor devices historical development, contact resistance, FET characteristics, quantum limit, 2D materials contacts, and charge-injection mechanisms.

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.

MOSFET Structure and Operation: Qualitative Analysis

Describes the qualitative behavior of MOSFET transistors, focusing on their structure and operational principles.

Simulation of 2D Field Effect Transistors

Covers the simulation of 2D Field Effect Transistors and the advantages of using Green's Function.

Integrated Circuits: Evolution and Fabrication

Explores the evolution of integrated circuits, from transistors to CMOS technology, highlighting key historical milestones.

MOSFET Operation: Understanding NMOS Behavior

Explains the operation of NMOS structures and their behavior in various regimes, including sub-threshold, linear, and saturation.

Semiconductor Devices II: Contact Resistance Modeling

Explores contact resistance modeling in semiconductor devices, focusing on gate voltage calculation and defect analysis.

Contact Resistance: Theory and Measurements

Explores contact resistance in semiconductor devices, including Moore's Law, FET characteristics, quantum limits, and measurement techniques.