Low-Dimensional Nanoelectronic Devices
Theoretical Analysis and Cutting-Edge Research
- 356 pages
- English
- ePUB (mobile friendly)
- Available on iOS & Android
Low-Dimensional Nanoelectronic Devices
Theoretical Analysis and Cutting-Edge Research
About This Book
Providing cutting-edge research on nanoelectronics and photonic devices and its application in future integrated circuits, this state-of-the-art book tackles the challenges of the different detailed theoretical and analytical models of solving the problems of various nanodevices. The volume also explores from different angles the roles of material composition and choice of materials that now play the most critical role in determining outcomes of low-dimensional nanoelectronic devices. The applications of those findings are extremely beneficial for the computing and telecommunication industries.
Beginning with a solid theoretical background for every chapter, this volume covers the hottest areas of present-day electronic engineering. The continuous miniaturization of devices, components, and systems requires corresponding cutting-edge theoretical analysis supported by simulated findings before actual fabrication. That purpose is given maximum focus in this volume, which has interdisciplinary appeal, making it a comprehensive technological volume that deals with underlying aspects of physics, materials, structures in nano-regime, and the corresponding end-product in the form of devices.
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Table of contents
- Cover Page
- Half Title page
- Title Page
- Copyright Page
- About the Editors
- Contents
- Contributors
- Abbreviations
- Foreword
- Introduction
- Preface
- 1. Design Topologies for Low-Frequency and Low-Noise Neural Signal Processing
- 2. Sensing Using the Memristive Approach, Governing Physics, and Instrumentation Challenges
- 3. Analog and RF Performance Analysis and Its Sensitivity to Critical Geometrical Parameters in Junctionless Accumulation Mode Bulk FinFET
- 4. Charge Storage Mechanism in Proteotronic Capacitors
- 5. Recent Advancement in Graphene-Based Metasurface Structures
- 6. Silicon Nanotube FETs: From Device Concept to Analytical Model Development
- 7. Techniques for Deposition of Diamond-Like Carbon and Their Potential Applications in Teaching and Training Materials Engineers
- 8. Modeling Approach of Work-Function Engineered Tunnel Field Effect Transistors: A Physical Insight
- 9. Thin-Film Photovoltaic Devices with Asymmetric Heterocontact Geometries
- 10. Memristor: The Missing Fourth Circuit Component
- 11. Technological Development of Graphene and Graphene Nanocomposite-Based Supercapacitor Electrode
- 12. Negative Capacitance Field Effect Transistors for Future Low Power Electronics
- Index