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Full Description
Classical to Quantum Transport in Multi‑Dimensional Field Effect Transistors offers a wide range of topics with attractive images and informative explanations. It begins with an exploration of the fundamentals of field effect transistor (FET) functioning, emphasizing how behavior is governed by classical models. As the semiconductor industry pushes the boundaries of miniaturization and performance, Multi-Dimensional Field Effect Transistors (MuDFETs) and emerging material platforms are redefining the foundations of modern electronics. This book offers a deep and insightful journey through the evolving landscape of advanced FET architectures—from classical conduction models to quantum and ballistic transport regimes. Authored by experts across academia and research institutions, this book offers in-depth discussions on:
Multi-Dimensional and Junctionless FETs: Design innovations enabling superior control, scaling, and performance
2D Materials & Transition Metal Dichalcogenides (TMDCs): Harnessing atomically thin semiconductors for next‑generation device engineering
Nanosheet Transistors: Unlocking new dimensions in charge transport and quantum confinement
Charge transport mechanisms from classical, semiclassical to ballistic regimes in nanosheet and nanowire FETs
Tunnel Field Effect Transistor (TFET)-Based Biosensors: Cutting-edge developments in label‑free, ultra-sensitive detection for healthcare and environmental monitoring
Integration of FET platforms in nonlinear and quantum photonics using silicon nitride waveguides
Whether you're exploring the quantum limits of device physics or developing real-world sensing solutions, this collection bridges theory and application in one compelling volume. With contributions from leading researchers and technologists, this book serves as a vital reference for academics, graduate students, and professionals working in nanoelectronics, semiconductor devices, biosensors, and photonic field.
Contents
Chapter 1 Introduction to Multi-Dimensional Field Effect Transistors (MuDFETs)
Mamataj Khatuna and Ekramul Kabir
Chapter 2 Introduction to Multi-Dimensional Field Effect Transistors (FETs)
Piyali Saha
Chapter 3 2D Material-Based Field Effect Transistors (FETs)
Piyali Saha, Soumya Sen, Prabhat Singh, and Ashish Raman
Chapter 4 Emerging Transition Metal Dichalcogenides (TMDCs) in Semiconductor Design: A Path to Next-Generation Electronics
Malvika, Ashutosh Srivastava, Jagritee Talukdar, Rajan Singh, Prabhat Singh, and Jami Venkata Suman
Chapter 5 From Classical to Quantum: Ballistic Transport in Nanosheet FETs
E. Rajalakshmi, N. B.Balamurugan, M. Hemalatha and M. Suguna
Chapter 6 Classical to Semiclassical Transport in Field Effect Transistors
Sharmistha Shee Kanrar, Shib Sankar Das, and Subir Kumar Sarkar
Chapter 7 Scaling Capability Analysis of Junctionless Multi-Gate FETs
R. Ouchen, T. Berghout, F. Djeffal, and H. Ferhati
Chapter 8 Nanosheet Transistors: A New Dimension in Charge Transport
Parul Devi
Chapter 9 Advanced Electrostatics in Nanosheet Transistors for Enhanced Device Scaling
Vratika Verma, Teena Saini, Sakshi Saini, and Jagram Meena
Chapter 10 The Charge Transport of the Breast Cancer Cells on Metal Strip-Loaded Extended Source-TFET Biosensor
Madhulika Verma and Sachin Agrawal
Chapter 11 Exploring Tunnel Field Effect Transistors (TFETs) as Label-Free Biosensors: Bridging Advances in Biosensing Technology Basudha Dewan and Kamal Kishor Choure
Chapter 12 Field Effect Transistors in Gas Sensing: Advances in Detection and Analysis of Diverse Gases
Ankit Kumar Singh, Sanjeev Rai, and Nirmal Roy
Chapter 13 High-Performance Silicon Nitride Waveguides: A Platform for Nonlinear and Quantum Photonics
Chandani Dubey, Prabhat Singh, Priya Kaushal, Dilip Singh, Malvika, and Ashutosh Srivastava
