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- 488pages
- 18 heures de lecture
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This book offers a comprehensive introduction to nanomaterials and their applications by applying traditional physics concepts to elucidate new phenomena. It establishes a solid foundation in quantum mechanics while introducing essential concepts related to nanomaterials and the devices derived from them. The discussion begins with the fundamental properties of semiconductors and progresses to quantum structures, including single, multiple, and quantum wells, as well as nanomaterial systems like quantum wires and dots. Authored by a leading expert in the field, the text includes insights on the growth of bulk semiconductors, thin films, and nanomaterials. It explores the application of quantum mechanics to nanomaterial structures and quantum transport, alongside extensive coverage of Maxwell-Boltzmann, Fermi-Dirac, and Bose-Einstein statistics. The book delves into the optical, electrical, and transport properties of these materials and discusses both electronic and optoelectronic devices. It also provides calculations of energy levels in periodic potentials, quantum wells, and quantum dots. This resource is invaluable for students and practitioners seeking to understand the behavior and growth of nanomaterials, opening avenues for innovation and invention in this dynamic field.
Achat du livre
Introduction to Nanomaterials and Devices, Mahmoud Omar Manasreh
- Langue
- Année de publication
- 2011
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- Titre
- Introduction to Nanomaterials and Devices
- Langue
- Anglais
- Auteurs
- Mahmoud Omar Manasreh
- Éditeur
- Wiley-Interscience
- Publié
- 2011
- Format
- rigide
- Pages
- 488
- ISBN10
- 0470927070
- ISBN13
- 9780470927076
- Séries
- Mots clés
- Nonfiction, Science et Mathématiques, Sciences naturelles, Science, Technologie, Physique, Chimie, Anthologies, Électronique, Mécanique, Personnes sans partenaire, Nanotechnologie, Applications, Fondations, Semi-conducteurs, Appareils
- Description
- This book offers a comprehensive introduction to nanomaterials and their applications by applying traditional physics concepts to elucidate new phenomena. It establishes a solid foundation in quantum mechanics while introducing essential concepts related to nanomaterials and the devices derived from them. The discussion begins with the fundamental properties of semiconductors and progresses to quantum structures, including single, multiple, and quantum wells, as well as nanomaterial systems like quantum wires and dots. Authored by a leading expert in the field, the text includes insights on the growth of bulk semiconductors, thin films, and nanomaterials. It explores the application of quantum mechanics to nanomaterial structures and quantum transport, alongside extensive coverage of Maxwell-Boltzmann, Fermi-Dirac, and Bose-Einstein statistics. The book delves into the optical, electrical, and transport properties of these materials and discusses both electronic and optoelectronic devices. It also provides calculations of energy levels in periodic potentials, quantum wells, and quantum dots. This resource is invaluable for students and practitioners seeking to understand the behavior and growth of nanomaterials, opening avenues for innovation and invention in this dynamic field.