Field Effect Transistors A Comprehensive Overview
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Field Effect Transistors, A Comprehensive Overview
This book discusses modern-day Metal Oxide Semiconductor Field Effect Transistors (MOSFETs) and future trends of transistor devices. This book provides an overview of Field Effect Transistors (FETs) by discussing the basic principles of FETs and exploring the latest technological developments in the field. It covers and connects a wide spectrum of topics related to semiconductor device physics, physics of transistors, and advanced transistor concepts. This book contains six chapters. Chapter 1 discusses electronic materials and charge. Chapter 2 examines junctions, discusses contacts under thermal-equilibrium, metal-semiconductor contacts, and metal-insulator-semiconductor systems. Chapter 3 covers traditional planar Metal Oxide Semiconductor Field Effect Transistors (MOSFETs). Chapter 4 describes scaling-driving technological variations and novel dimensions of MOSFETs. Chapter 5 analyzes Heterojunction Field Effect Transistors (FETs) and also discusses the challenges and rewards of heteroepitaxy. Finally, Chapter 6 examines FETs at molecular scales. Links the discussion of contemporary transistor devices to physical processes Material has been class-tested in undergraduate and graduate courses on the design of integrated circuit components taught by the author Contains examples and end-of-chapter problems Field Effect Transistors, A Comprehensive Overview: From Basic Concepts to Novel Technologies is a reference for senior undergraduate / graduate students and professional engineers needing insight into physics of operation of modern FETs. Pouya Valizadeh is Associate Professor in the Department of Electrical and Computer Engineering at Concordia University in Quebec, Canada. He received B.S. and M.S. degrees with honors from the University of Tehran and Ph.D. degree from The University of Michigan (Ann Arbor) all in Electrical Engineering in 1997, 1999, and 2005, respectively. Over the past decade, Dr. Valizadeh has taught numerous sections of five different courses covering topics such as semiconductor process technology, semiconductor materials and their properties, advanced solid state devices, transistor design for modern CMOS technology, and high speed transistors.
Field Effect Transistors
Author: P. Suveetha Dhanaselvam
language: en
Publisher: John Wiley & Sons
Release Date: 2025-04-15
Field Effect Transistors is an essential read for anyone interested in the future of electronics, as it provides a comprehensive yet accessible exploration of innovative semiconductor devices and their applications, making it a perfect resource for both beginners and seasoned professionals in the field. Miniaturization has become the slogan of the electronics industry. Field Effect Transistors serves as a short encyclopedia for young minds looking for solutions in the miniaturization of semiconductor devices. It explores the characteristics, novel materials used, modifications in device structure, and advancements in model FET devices. Though many devices following Moore’s Law have been proposed and designed, a complete history of the existing and proposed semiconductor devices is not available. This book focuses on developments and research in emerging semiconductor FET devices and their applications, providing unique coverage of topics covering recent advancements and novel concepts in the field of miniaturized semiconductor devices. Field Effect Transistors is an easy-to-understand guide, making it excellent for those who are new to the subject, giving insight and analysis of recent developments and developed semiconductor device structures along with their applications.
Carbon Nanotube Field Effect Transistor
Author: Fouad Sabry
language: en
Publisher: One Billion Knowledgeable
Release Date: 2025-03-15
"Carbon Nanotube Field Effect Transistor" is a crucial read for professionals, students, and enthusiasts involved in nanoelectronics. This comprehensive exploration of carbon nanotubebased technologies presents cuttingedge concepts and applications that are shaping the future of electronics. Through clear and concise explanations, the book delves into fundamental and advanced topics, providing invaluable insights for anyone seeking to understand or work with the revolutionary materials that are transforming nanoelectronics. Whether you're a graduate student, a seasoned researcher, or a hobbyist, this book serves as both an educational guide and a source of inspiration for further innovation. Chapters Brief Overview: 1: Carbon nanotube fieldeffect transistor: Introduction to the carbon nanotube fieldeffect transistor and its potential in nanoelectronics. 2: Threshold voltage: Exploration of the concept of threshold voltage and its significance in carbon nanotube FETs. 3: Carbon nanotube computer: Investigation into the potential of carbon nanotubes for use in computational devices. 4: Carbon nanotube nanomotor: Overview of carbon nanotubebased motors and their role in future nanodevices. 5: Ballistic conduction: Understanding ballistic conduction in carbon nanotubes and its impact on transistor performance. 6: Metal–semiconductor junction: A look into the metalsemiconductor junctions in carbon nanotube transistors. 7: Tunnel fieldeffect transistor: Examination of tunnel FETs using carbon nanotubes and their advantages in lowpower electronics. 8: Ballistic conduction in singlewalled carbon nanotubes: Focus on singlewalled carbon nanotubes and their potential for ballistic conduction. 9: NanoIntegris: Overview of NanoIntegris and its contributions to the development of carbon nanotubebased materials. 10: Electron mobility: Investigation into electron mobility in carbon nanotubes and its effects on performance in nanoelectronics. 11: Vertically aligned carbon nanotube arrays: The importance of vertically aligned nanotube arrays for highperformance devices. 12: Schottky barrier: Exploration of Schottky barriers in carbon nanotubes and their role in enhancing FETs. 13: Nanoelectromechanical systems: Discussion of nanoelectromechanical systems (NEMS) based on carbon nanotubes. 14: Singleelectron transistor: Overview of singleelectron transistors and their integration with carbon nanotubes. 15: Hybrid solar cell: Potential applications of carbon nanotubes in hybrid solar cells and renewable energy systems. 16: Carbon nanotubes in interconnects: Insight into how carbon nanotubes are being used as interconnects in modern electronics. 17: Organic fieldeffect transistor: Examination of organic fieldeffect transistors and their integration with carbon nanotubes. 18: Potential applications of carbon nanotubes: Exploration of the diverse potential applications of carbon nanotubes in nanoelectronics. 19: Carbon nanotubes in photovoltaics: Review of the role of carbon nanotubes in photovoltaic technologies. 20: Fieldeffect transistor: Deep dive into the function and significance of fieldeffect transistors in nanoelectronics. 21: Carbon nanotube: Final chapter summarizing the impact of carbon nanotubes on the future of electronics. This book is an indispensable resource for anyone working with carbon nanotubes and nanoelectronics. It offers a deep understanding of both theoretical and practical aspects, highlighting the transformative power of these materials across various fields of technology.