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OverviewTremendous innovations in electronics and photonics over the past few decades have resulted in the downsizing of transistors in integrated circuits, which are now approaching atomic scales. This will soon result in the creation of a growing knowledge gap between the underlying technology and state-of-the-art electronic device modeling and simulations. This book bridges the gap by presenting cutting-edge research in the computational analysis and mathematical modeling of graphene nanostructures as well as the recent progress on graphene transistors for nanoscale circuits. It inspires and educates fellow circuit designers and students in the field of emerging low-power and high-performance circuit designs based on graphene. While most of the books focus on the synthesis, fabrication, and characterization of graphene, this book shines a light on graphene models and their circuit simulations and applications in photonics. It will serve as a textbook for graduate-level courses in nanoscale electronics and photonics design and appeal to anyone involved in electrical engineering, applied physics, materials science, or nanotechnology research. Full Product DetailsAuthor: Yaser Banadaki , Safura SharifiPublisher: Pan Stanford Publishing Pte Ltd Imprint: Pan Stanford Publishing Pte Ltd Weight: 0.560kg ISBN: 9789814800365ISBN 10: 9814800368 Pages: 210 Publication Date: 23 July 2019 Audience: Professional and scholarly , Professional & Vocational Format: Hardback Publisher's Status: Active Availability: Manufactured on demand  We will order this item for you from a manufactured on demand supplier. Table of ContentsIntroduction to Graphene. Graphene for Integrated Circuits. Computational Carrier Transport Model of GNRFET. Scaling Effects on Performance of GNRFETs. Width-dependent Performance of GNRFETs. A Spice Physics–based Circuit Model of GNRFET. Graphene-based Circuits Design. Graphene Sensing and Energy Recovery. Graphene Photonic Properties and Applications. Graphene-based Thermal Emitter.ReviewsBanadaki (Southern Univ. and A&M College) and Sharifi (Louisiana State Univ.) have put together a concise but comprehensive book on two-dimensional carbon, commonly referred to as graphene. In the first 20 pages the authors set out what graphene is and why it is important in the context of integrated circuits, namely as an option for post-silicon scaling. In the next 100 pages or so, the operating principles of graphene, applied as a field effect transistor (FET), are described in great detail, including carrier transport behavior, scaling effects, operating principles, and models for creating a circuit from graphene FETs. The final 80 pages sketch out many applications for graphene: logic, sensing, photonics, and more. Each chapter is easily digestible because the chapters are well confined to a specific topic and include copious references for additional reading as needed. For those who do not require persuasion that graphene is an important electronic material, a thorough reading of this book will quickly bring them up to speed on the main areas of interest. --N. M. Fahrenkopf, SUNY Polytechnic Institute Banadaki (Southern Univ. and A&M College) and Sharifi (Louisiana State Univ.) have put together a concise but comprehensive book on two-dimensional carbon, commonly referred to as graphene. In the first 20 pages the authors set out what graphene is and why it is important in the context of integrated circuits, namely as an option for post-silicon scaling. In the next 100 pages or so, the operating principles of graphene, applied as a field effect transistor (FET), are described in great detail, including carrier transport behavior, scaling effects, operating principles, and models for creating a circuit from graphene FETs. The final 80 pages sketch out many applications for graphene: logic, sensing, photonics, and more. Each chapter is easily digestible because the chapters are well confined to a specific topic and include copious references for additional reading as needed. For those who do not require persuasion that graphene is an important electronic material, a thorough reading of this book will quickly bring them up to speed on the main areas of interest. --N. M. Fahrenkopf, SUNY Polytechnic Institute Author InformationYaser M. Banadaki is assistant professor at the Department of Computer Science, College of Science and Engineering, Southern University and A&M College, Baton Rouge, Louisiana, USA. He received his PhD in electrical and computer engineering from Louisiana State University (LSU), USA, in 2016. His current research focuses on the computational modeling and experimental validation of novel materials and nanostructures for information technology and sensor devices. He is also interested in material knowledge discovery techniques using machine learning algorithms. Safura Sharifi is a quantum technology researcher at the Hearne Institute for Theoretical Physics, LSU. She received her PhD in electrical engineering from LSU in 2019. Her current research focuses on machine learning, quantum technology, and 2D materials for information technology. Tab Content 6Author Website:Countries AvailableAll regions |
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