Introduction
Presenting an advanced exploration of next-generation Field-Effect Transistor (FET) technologies, Nano-FET Devices: Miniaturisation, Simulation, and Applications (Part 2) bridges the gap between nanoscale device fundamentals and innovative real-world applications.
Spanning eighteen chapters, the book focuses on Tunnel FETs (TFETs), carbon-based FETs, and biosensor innovations, charting the shift from CMOS to TFET technologies while tackling key issues of performance, scalability, and reliability. It highlights advanced architectures such as HJ-DGV-TFETs, dual-pocket step-channel TFETs, and 2D material transistors, along with metasurface photonic devices, AlGaN/GaN HEMTs, CNT-FETs, and FET-based biosensors with applications in healthcare, digital systems, and optoelectronics.
Key Features:
- - Integrates multidisciplinary insights across nanotechnology, photonics, RF engineering, and bioelectronics.
- - Analyzes advanced FET architectures and their performance optimization through simulation and modeling.
- - Explores the role of novel nanomaterials in biosensing, memory, and optoelectronic applications.
- - Addresses design, fabrication, and scalability challenges in nano-FET development.
- - Identifies emerging research trends driving innovation in semiconductor and nanoelectronic technologies.
Readership
For graduate students, researchers, and professionals in semiconductors, nanoelectronics, and device engineering.