Microelectronics Simulations, Modeling and Applications
Product details
Biographical note
Balwinder Raj, PhD is an Associate Professor and an Associate Dean of Academics at the National Institute of Technology Jalandhar with more than 15 years of teaching and research experience. He has authored and co-authored eight books, 15 book chapters, and more than 150 research papers in peer-reviewed national and international journals and conferences. His areas of interest include classical and non-classical nanoscale semiconductor device modeling, nanoelectronics, FinFET-based memory design, and low-power VLSI design.
Koushik Guha, PhD is an Associate Professor and Head of the Department of Electronics and Communication Engineering at the National Institute of Technology Silchar. He has published more than 200 papers in international journals and conferences of repute, 35 book chapters, and two books. His current research interests include mimicking human body functions using micro-electro-mechanical systems (MEMS) technology, MEMS energy harvesting, design and development of smart sensors for IoT, and VLSI circuit design and optimization.
Shiromani Balmukund Rahi, PhD is an Assistant Professor in the School of Information and Communication Technology at Gautam Buddha University. He has published 25 research articles, two conference proceedings, 25 book chapters for various book projects, and seven books. His research focuses on the development of ultra-low power devices such as tunnel FETs and negative capacitance FETs.
Jyoti Kandpal, PhD is an Assistant Professor in the Department of Electronics and Communication Engineering at Graphic Era Hill University. She has more than 40 publications to her cresit in international journals and conferences. Her research interests include low-power VLSI design and high-performance digital circuit design.
Unlock the future of nanotechnology with this essential guide, which provides an exhaustive exploration of solutions to overcome the physical limits of silicon and optimize the performance of next-generation nanoscale semiconductor devices.
As the role of microelectronics grows in today’s world, there is a need for new material solutions that move away from the limited conductivity of silicon to improve the electronic properties in nanoscale semiconductor devices. This unique guide exhaustively explores a number of topics, including 2D materials, microelectronic devices, large VLSI circuit design, and leakage mitigation techniques. The book showcases in-depth analyses of microelectronic device structures and their applications, properties, and characterization. With its easy-to-understand approach, this book is an excellent resource for novices and experts alike.
Preface xiii
Acknowledgment xxi
1 2D Materials for Microelectronic Devices 1
Shasi Sarmah, Krishanku Upamanyu, Nilpawan Sarma, Hirendra Das and Pranjal Saikia
2 Microelectronic Devices 39
Bidhan Pramanick and Anto Manuel
3 Insights Review of Microelectronic Devices 73
Rambabu Kusuma and Roshan Bodile
4 Novel Devices with Carbon and Graphene 103
M. Vinoth
5 Carbon and Graphene Devices with Applications 129
R. Suba Lakshmi, S. Aditya and R. Aarthi
6 III–V Compound Semiconductor Devices 161
Priyanka Chetia, Hirendra Das and Pranjal Saikia
7 Dopingless Heterojunction Tunnel FET and its Application 191
Basudha Dewan
8 Silicon Nanowire Field Effect Transistor and Its Applications 215
Mekonnen Getnet Yirak and Rishu Chaujar
9 Impact of Material and Structural Engineering in Double-Gate Junction Underlap Dual-Gate FinFETs 247
Manaswini Mishra and Ananya Dastidar
10 Nanoelectronic System Design for RF Energy Harvesting 277
Manash Pratim Sarma and Kandarpa Kumar Sarma
11 Fin Field-Effect Transistor-Based Digital Logic Circuits Using 7-nm Regime 309
Sarika M. Jagtap, Viraj R. Sonawane, Bhushankumar N. Shinde, Rasika M. Chandramore and Dyaneshwar D. Ahire
12 MEMS Sensors and Its Applications 335
Shaveta, R. K. Bhan and Rishu Chaujar
13 Investigation of MEMS Sensors and Applications 367
Amuthameena S., Vaishnavi R., Gayathri G. and Karlyn Cynthia F.M.
14 Piezoelectric MEMS Sensors and its Applications 393
Tikendrajit Chetia and Bolin Chetia
15 Design Exploration of PVT-Tolerant Pre-Amplifiers for Seizure Monitoring 425
Sarin Vijay Mythry
16 Advanced Electroencephalography and Its Influence on Neuroscience Applications 451
Sarin Vijay Mythry
17 Bridging Memory and Computation: Reimagining Digital Logics through Memristor Technology 475
Dayananda Singh Khwairakpam and Vandana Devi Wangkheirakpam
18 Nanowire Synapse for Accelerating Neuromorphic Computing 497
Hemanta Kumar Mondal, Prasenjit Maji and Kunal Dhibar
About the Editors 525
Index 527
Unlock the future of nanotechnology with this essential guide, which provides an exhaustive exploration of solutions to overcome the physical limits of silicon and optimize the performance of next-generation nanoscale semiconductor devices.
As the role of microelectronics grows in today’s world, there is a need for new material solutions that move away from the limited conductivity of silicon to improve the electronic properties in nanoscale semiconductor devices. This unique guide exhaustively explores a number of topics, including 2D materials, microelectronic devices, large VLSI circuit design, and leakage mitigation techniques. The book showcases in-depth analyses of microelectronic device structures and their applications, properties, and characterization. With its easy-to-understand approach, this book is an excellent resource for novices and experts alike.
Product details
Biographical note
Balwinder Raj, PhD is an Associate Professor and an Associate Dean of Academics at the National Institute of Technology Jalandhar with more than 15 years of teaching and research experience. He has authored and co-authored eight books, 15 book chapters, and more than 150 research papers in peer-reviewed national and international journals and conferences. His areas of interest include classical and non-classical nanoscale semiconductor device modeling, nanoelectronics, FinFET-based memory design, and low-power VLSI design.
Koushik Guha, PhD is an Associate Professor and Head of the Department of Electronics and Communication Engineering at the National Institute of Technology Silchar. He has published more than 200 papers in international journals and conferences of repute, 35 book chapters, and two books. His current research interests include mimicking human body functions using micro-electro-mechanical systems (MEMS) technology, MEMS energy harvesting, design and development of smart sensors for IoT, and VLSI circuit design and optimization.
Shiromani Balmukund Rahi, PhD is an Assistant Professor in the School of Information and Communication Technology at Gautam Buddha University. He has published 25 research articles, two conference proceedings, 25 book chapters for various book projects, and seven books. His research focuses on the development of ultra-low power devices such as tunnel FETs and negative capacitance FETs.
Jyoti Kandpal, PhD is an Assistant Professor in the Department of Electronics and Communication Engineering at Graphic Era Hill University. She has more than 40 publications to her cresit in international journals and conferences. Her research interests include low-power VLSI design and high-performance digital circuit design.