This book presents a groundbreaking Dual Metal Double Gate Tunnel Field Effect Transistor (DM DG TFET) featuring a laterally divided dielectric gate oxide structure with a tunneling and auxiliary gate. By engineering gate oxides and work functions, the device achieves a sub-threshold swing below 90 mV/decade, high current ratio, and ultra-low OFF current. It explores the role of high-k dielectrics, doping, and gate potentials in optimizing performance. The research further introduces a charge plasma-based TFET for label-free biomolecule detection, demonstrating exceptional drain sensitivity...

This book focuses in the development of a novel structure that can be in corporate to form a device with two strained Si layers in the channel region forming tri-layered strained channel heterostructure on insulator (HOI) nano-MOS system, which can be implemented to form a NanoFET. The heterostructure channel based on NanoFET consisting of mobility enriched double strained Si layers sandwiching the strained SiGe in between significantly enhances electron mobility in comparison to the conventional device of s-Si on relaxed SiGe channel MOSFET, leading to improved device performance without...