Nanoelectronics Devices: Design, Materials, and Applications provides information about the progress of nanomaterial and nanoelectronic devices and their applications in diverse fields (including semiconductor electronics, biomedical engineering, energy production and agriculture). The book is divided into two parts. The editors have included a blend of basic and advanced information with references to current research.
The book is intended as an update for researchers and industry professionals in the field of electronics and nanotechnology. It can also serve as a reference book for students taking advanced courses in electronics and technology. The editors have included MCQs for evaluating the readers’ understanding of the topics covered in the book.
Topics covered in Part 1 include basic knowledge on nanoelectronics with examples of testing different device parameters.
- The present, past, and future of nanoelectronics,
- An introduction to Nanoelectronics and applicability of Moore's law
- Transport of charge carrier, electrode, and measurement of device parameters
- Fermi level adjustment in junction less transistor,
- Non-polar devices and their simulation
- The negative capacitance in MOSFET devices
- Effect of electrode in the device operation
- Second and Sixth group semiconductors,
- FinFET principal and future, Electronics and optics integration for fast processing and data communication
- Batteryless photo detectors
- Solar cell fabrication and applications
- Van der Waals assembled nanomaterials
Audience: Researchers and industry professionals in the field of electronics and nanotechnology; students taking advanced courses in electronics and technology.
Editors: Gopal Rawat, Aniruddh Bahadur Yadav
Table of Contents
Chapter 1 Role of Nanotechnology in Nanoelectronics
Chapter 2 Self-Assembled Monolayer-based Molecular Electronic Devices
Chapter 3 Performance Analysis of Rectangular Core-Shell Double Gate Junctionless Transistor (RCS-DGJLT)
Chapter 4 Performance Analysis of Electrical Characteristics of Hetero-Junction LTFET at Different Temperatures for IoT Applications
Chapter 5 Device Structure Modifications in Conventional Tunnel Field Effect Transistor (TFET) for Low-Power Applications
Chapter 6 Impact of Electrode Length on I-V Characteristics to Linearity of TFET with Source Pocket
Chapter 7 II-VI Semiconductor-based Thin-Film Transistor Sensor for Room Temperature Hydrogen Detection from Idea to Product Development
Chapter 8 FinFET Advancements and Challenges: A State-of-the-Art Review
Chapter 9 Optically Gated Vertical Tunnel FET for Near-Infrared Sensing Application