Nanoelectronics :physics, technology and applications /

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Nanoelectronics :physics, technology and applications /

Parekh, Rutu, - Personal Name; Institute of Physics (Great Britain), - Personal Name; Dhavse, Rasika, - Personal Name;

"Version: 20231101"--Title page verso.Includes bibliographical references.1. Physical and technological limitations of nano-CMOS devices to the end of the roadmap and beyond -- 1.1. MOSFETs and their scaling -- 1.2. Limitations and showstoppers arising from CMOS scaling, and technological options for MOSFET optimisation2. Introduction and overview of nanoelectronics -- 2.1. Introduction -- 2.2. Market requirements for nanoelectronics -- 2.3. Nanofabrication3. Introduction to the quantum theory of solids -- 3.1. Classical particles, classical waves and quantum particles -- 3.2. Quantum particles and principles of quantum mechanics -- 3.3. Quantum tunnelling -- 3.4. Quantum confinement -- 3.5. Schrodinger's wave equation--meaning, boundary conditions and applications -- 3.6. Significance of the band theory of solids -- 3.7. Factors affecting the energy band gap -- 3.8. Fermi statistics and electrical conduction in solids4. Emerging research devices for nanocircuits -- 4.1. Channel-replacement devices -- 4.2. Graphene -- 4.3. Fullerenes and carbon nanotubes -- 4.4. Tunnel field-effect transistor -- 4.5. Nanowire field-effect transistors -- 4.6. P-type III-V channel-replacement devices -- 4.7. N-type Ge channel-replacement devices -- 4.8. Potential evaluation--extending MOSFETs to the end of the roadmap -- 4.9. Quantum confinement and associated devices -- 4.10. Quantum-mechanical tunnelling and Coulomb blockade in a single-electron transistor -- 4.11. Structure and working principle of single-electron transistors -- 4.12. Other quantum structures and their applications -- 4.13. Nanoelectromechanical systems -- 4.14. Atomic switches -- 4.15. Mott FETs -- 4.16. Negative-capacitance FETs -- 4.17. Alternative information-processing devices5. Emerging memory devices -- 5.1. Memristors -- 5.2. Magnetoresistive effect for memory applications -- 5.3. Magnetoresistive RAM -- 5.4. Spin-transfer torque magnetic random access memory -- 5.5. All-spin logic -- 5.6. Phase-change memory -- 5.7. Resistive random access memory -- 5.8. Ferroelectric RAM -- 5.9. Mott memory -- 5.10. Carbon-based emerging memory devices -- 5.11. Molecular memory -- 5.12. Macromolecular memory -- 5.13. Racetrack memory -- 5.14. Comparison of memory types6. Modelling and simulation -- 6.1. Technology modelling and simulation -- 6.2. Circuit simulators -- 6.3. Monte Carlo simulation -- 6.4. Microelectromechanical/nanoelectromechanical device simulators -- 6.5. System-level design7. Nanofabrication -- 7.1. Microfabrication techniques -- 7.2. Limits of photolithography and advanced lithographic processes -- 7.3. Self-assembly processes -- 7.4. Nano measurement and characterisation tools -- 7.5. Thin-film technology and synthesis -- 7.6. Microelectromechanical, microoptoelectromechanical systems and nanoelectromechanical technologies -- 7.7. Process integration8. Emerging nanoelectronic architectures -- 8.1. Storage class memory -- 8.2. Morphic computing : the architectures that can learn9. Nanosensors and transducers -- 9.1. Introduction to sensors science and technology -- 9.2. Nanosensors and transducers in food industry, healthcare and defence -- 9.3. Metal nanoparticles and quantum-dots-based sensors -- 9.4. Carbon-nanotubes-based sensors -- 9.5. Electronic skin based on nanotechnology -- 9.6. Microelectromechanical/nanoelectromechanical sensors.This course text provides comprehensive coverage for fundamental and advanced courses in nanoelectronics. It provides insight into the future of electronics, emerging devices, logic and memory, sensors, systems architecture, nanofabrication, and the fundamental physics behind nanoelectronics. After reading the book, students will be able to understand the applications and design principles of nanodevices and nanosensors. The content is organised into nine chapters, each covering a specific area and written in accessible language. The topics covered include physical and technological limitations of nano CMOS devices, quantum physics, simulation and modelling, nanofabrication, emerging logic and memory devices and application areas including nanoarchitectures, sensors, and transducers. The book is a core text for senior undergraduate and postgraduate courses in nanoelectronics, and a valuable reference for researchers, engineers and specialists in fields including electronic devices, solid-state physics and nanotechnology.Core text for senior undergraduate and postgraduate courses in nanoelectronics. These courses are found in departments of electronics and electrical engineering, engineering physics and computer science, nanoscience and nanoengineering.Also available in print.Mode of access: World Wide Web.System requirements: Adobe Acrobat Reader, EPUB reader, or Kindle reader.Dr. Rutu Parekh is an Associate Professor at DA-IICT, Gandhinagar, India. She received her M. Eng. in Electrical Engineering from Concordia University, Canada, and a PhD in Electrical Engineering (Nanoelectronics) from Universit?e de Sherbrooke, Canada. She was a postdoctoral fellow at Centre of Excellence in Nanoelectronics, IIT Bombay. She is also associated with The Inter-University Centre for Astronomy and Astrophysics, Pune, India, as a Visiting Associate. She holds more than 20 years of national and international experience in research and industry. She has published many articles in international journals and conference proceedings. Her research area includes high voltage ASIC design for space applications and design, modelling, and simulation of nanoelectronic circuits. Dr. Rasika Dhavse is an Associate Professor in the Department of Electronics Engineering at Sardar Vallabhbhai National Institute of Technology, Surat, India. She received her PhD in the field of nanocrystal-based flash memory devices in 2016. She has more than 25 years of academic experience. She has published many papers in international journals and conference proceedings, and is member of various reputed national and international professional bodies.Title from PDF title page (viewed on January 4, 2024).

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Series Title: -
Call Number: -
Publisher: : .,
Collation: 1 online resource (various pagings) :illustrations (some color).
Language: English
ISBN/ISSN: 9780750348119
Classification: 621.381
Content Type: -
Media Type: -
Carrier Type: -
Edition: -
Subject(s): Electronic devices & materials.
Nanoelectronics.
TECHNOLOGY & ENGINEERING / Electronics / General.
Specific Detail Info: -
Statement of Responsibility: Rutu Parekh, Rasika Dhavse.

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