Advanced nanoelectronics / [edited by] Razali Bin Ismail, Mohammad Taghi Ahmadi, and Sohail Anwar.

Contributor(s):

Material type: Text

9781439856802 (hardback)

Subject(s):

Nanoelectronics

DDC classification:

621.381 23 Is83

Contents:

1. Fundamentals of quantum nanoelectronics / Jeffrey Frank Webb, Mohammad Taghi Ahmadi -- 2. Carbon-based materials concepts and basic physics / Mohammad Taghi Ahmadi [and others]-- 3. Carbon nanotube field effect transistor model / Mohammad Taghi Ahmadi, Razali Ismail -- 4. Carbon nanotube circuit analysis and simulation / Desmond C.Y. Chek, Razali Ismail -- 5. Graphene nanoribbon field effect transistors / Noraliah Aziziah Amin [and others] -- 6. Carrier transport, current-voltage characteristics of BGN / Seyed Mahdi Mousavi [and others] -- 7. Bilayer graphene nanoribbon transport model / Hatef Sadeghi [and others] -- 8. Trilayer graphene nanoribbon field effect transistor modeling / Meisam Rahmani [and others] -- 9. Graphene nanoribbon transistor model / Mahdiar Ghadiry, Mahdieh Nadi, Asrulnizam Abd Manaf -- 10. Silicon nanowire field effect transistor modeling / Amir Hossein Fallahpour, Mohammad Taghi Ahmadi -- 11. Silicon nanowires/nanoneedles / Habib Hamidinezhad, Yussof Wahab -- 12. Top-down fabrication of ZnO NWFETs / Suhana Mohamed Sultan, Peter Ashburn, Harold M.H. Chong -- 13. Quantum mechanical effects in nanometer scale strained Si/Si1-x Gex MOSFETs / Kang Eng Siew, Razali Ismail -- 14. Nanoelectronics research and commercialization in the United States / Sohail Anwar.

Summary: "With a focus on current research, this book covers nanodevice characteristics, state-of-the-art techniques used for nanodevice modeling, and applications of these models in diverse disciplines of science and engineering. The text first offers an introduction to the basic concepts of nanoelectronics, nanoscale device modeling, and nanoquantum fundamentals. Then, it discusses in detail nanodevice characteristics and nanoscale device models. It also presents an extensive discussion of graphene nanoribbon technology as well as graphene nanoribbon based models. In addition, the authors describe key concepts of quantum computing and quantum nanodots"--

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Holdings
Item type	Current library	Call number	Status	Date due	Barcode	Item holds
Books	ISI Library, Kolkata	621.381 Is83 (Browse shelf(Opens below))	Available		137824

Total holds: 0

Includes bibliographical references and index.

1. Fundamentals of quantum nanoelectronics / Jeffrey Frank Webb, Mohammad Taghi Ahmadi --
2. Carbon-based materials concepts and basic physics / Mohammad Taghi Ahmadi [and others]--
3. Carbon nanotube field effect transistor model / Mohammad Taghi Ahmadi, Razali Ismail --
4. Carbon nanotube circuit analysis and simulation / Desmond C.Y. Chek, Razali Ismail --
5. Graphene nanoribbon field effect transistors / Noraliah Aziziah Amin [and others] --
6. Carrier transport, current-voltage characteristics of BGN / Seyed Mahdi Mousavi [and others] --
7. Bilayer graphene nanoribbon transport model / Hatef Sadeghi [and others] --
8. Trilayer graphene nanoribbon field effect transistor modeling / Meisam Rahmani [and others] --
9. Graphene nanoribbon transistor model / Mahdiar Ghadiry, Mahdieh Nadi, Asrulnizam Abd Manaf --
10. Silicon nanowire field effect transistor modeling / Amir Hossein Fallahpour, Mohammad Taghi Ahmadi --
11. Silicon nanowires/nanoneedles / Habib Hamidinezhad, Yussof Wahab --
12. Top-down fabrication of ZnO NWFETs / Suhana Mohamed Sultan, Peter Ashburn, Harold M.H. Chong --
13. Quantum mechanical effects in nanometer scale strained Si/Si1-x Gex MOSFETs / Kang Eng Siew, Razali Ismail --
14. Nanoelectronics research and commercialization in the United States / Sohail Anwar.

"With a focus on current research, this book covers nanodevice characteristics, state-of-the-art techniques used for nanodevice modeling, and applications of these models in diverse disciplines of science and engineering. The text first offers an introduction to the basic concepts of nanoelectronics, nanoscale device modeling, and nanoquantum fundamentals. Then, it discusses in detail nanodevice characteristics and nanoscale device models. It also presents an extensive discussion of graphene nanoribbon technology as well as graphene nanoribbon based models. In addition, the authors describe key concepts of quantum computing and quantum nanodots"--

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