Field Effect Transistors
eBook - PDF

Field Effect Transistors

  1. 529 pages
  2. English
  3. PDF
  4. Available on iOS & Android
eBook - PDF

Field Effect Transistors

About this book

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.

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Yes, you can access Field Effect Transistors by P. Suveetha Dhanaselvam,K. Srinivasa Rao,Shiromani Balmukund Rahi,Dharmendra Singh Yadav in PDF and/or ePUB format, as well as other popular books in Technology & Engineering & Mechanical Engineering. We have over one million books available in our catalogue for you to explore.

Table of contents

  1. Cover
  2. Series Page
  3. Title Page
  4. Copyright Page
  5. Contents
  6. Preface
  7. Chapter 1 Classical MOSFET Evolution: Foundations and Advantages
  8. Chapter 2 Marvels of Modern Semiconductor Field-Effect Transistors
  9. Chapter 3 Introduction to Modern FET Technologies
  10. Chapter 4 Scaling of Field-Effect Transistors
  11. Chapter 5 Future Prospective Beyond CMOS Technology Design
  12. Chapter 6 Nanowire Transistors
  13. Chapter 7 Advancement of Nanotechnology and NP-Based Biosensors
  14. Chapter 8 Technology Behind Junctionless Semiconductor Devices
  15. Chapter 9 Breaking Barriers: Junctionless Metal-Oxide-Semiconductor Transistors Reinventing Semiconductor Technology
  16. Chapter 10 Performance Estimation of Junctionless Tunnel Field-Effect Transistor (JL-TFET): Device Structure and Simulation Through TCAD
  17. Chapter 11 Science and Technology of Tunnel Field-Effect Transistors
  18. Chapter 12 Circuits Designed for Energy-Harvesting Applications That Leverage TFETs to Achieve Extremely Low Power Consumption
  19. Chapter 13 A Ferroelectric Negative-Capacitance TFET with Extended Back Gate for Improvement in DC and Analog/HF Parameters
  20. Chapter 14 Basic Concepts of Heterojunction Tunnel Field-Effect Transistors
  21. Chapter 15 Boosting Performance of Charge Plasma–Based TFETs
  22. Chapter 16 TFET Device Modeling Using ML Algorithms
  23. Chapter 17 Design of Next-Generation Field-Effect Transistors Using Machine Learning
  24. Chapter 18 Machine Learning–Augmented Blockchain-Based Graphene Field-Effect Transistor Sensor Platform for Biomarker Detection
  25. Chapter 19 Heterojunction Concept and Technology for FET Developments
  26. Chapter 20 Characteristic Analysis of GOS HTFET
  27. Chapter 21 A Charge-Based 2D Mathematical Model for Dual-Material Gate Fe-Doped AlGaN/AlN/GaN High–Electron Mobility Transistors
  28. Chapter 22 Exploring Vertical Transition Metal Dichalcogenide Heterostructure MOSFET: A Comprehensive Review
  29. Chapter 23 Two-Dimensional Materials and Devices for UV Detection
  30. Chapter 24 Negative-Capacitance Field-Effect Transistor for Optimization of Power Factor for Modern Applications
  31. Chapter 25 Nanoscale High-K Tri-Material Surrounding-Gate MOSFET—An Insight Analysis
  32. Chapter 26 Nanoscale Field-Effect Transistors (FETs) in RF Applications
  33. Chapter 27 Emerging Subthreshold Swing FET for Next-Generation Technology Nodes
  34. Chapter 28 Elucidation of the Impact of Nano Heat Transfer Variability on Three-Dimensional Field-Effect Transistors
  35. About the Editors
  36. Index
  37. Also of Interest
  38. EULA