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Manasreh O. Introduction to Nanomaterials and Devices
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Wiley, 2012. — 483 p.An invaluable introduction to nanomaterials and their applications
Offering the unique approach of applying traditional physics concepts to explain new phenomena, Introduction to Nanomaterials and Devices provides readers with a solid foundation on the subject of quantum mechanics and introduces the basic concepts of nanomaterials and the devices fabricated from them. Discussion begins with the basis for understanding the basic properties of semiconductors and gradually evolves to cover quantum structures - including single, multiple, and quantum wells - and the properties of nanomaterial systems, such as quantum wires and dots.
Written by a renowned specialist in the field, this book features:
- An introduction to the growth of bulk semiconductors, semiconductor thin films, and semiconductor nanomaterials
- Information on the application of quantum mechanics to nanomaterial structures and quantum transport
- Extensive coverage of Maxwell-Boltzmann, Fermi-Dirac, and Bose-Einstein stastistics
- An in-depth look at optical, electrical, and transport properties
- Coverage of electronic devices and optoelectronic devices
- Calculations of the energy levels in periodic potentials, quantum wells, and quantum dots
Introduction to Nanomaterials and Devices provides essential groundwork for understanding the behavior and growth of nanomaterials and is a valuable resource for students and practitioners in a field full of possibilities for innovation and invention.Fundamental Constants
Growth of Bulk, Thin Films, and Nanomaterials
Application of Quantum Mechanics to Nanomaterial Structures
Density of States in Semiconductor Materials
Optical Properties
Electrical and Transport Properties
Electronic Devices
Optoelectronic Devices
Appendix Derivation of Heisenberg Uncertainty Principle
Appendix Perturbation
Appendix Angular Momentum
Appendix Wentzel-Kramers-Brillouin (WKB) Approximation
Appendix Parabolic Potential Well
Appendix Transmission Coefficient in Superlattices
Appendix Lattice Vibrations and Phonons
Appendix Tunneling Through Potential Barriers
Offering the unique approach of applying traditional physics concepts to explain new phenomena, Introduction to Nanomaterials and Devices provides readers with a solid foundation on the subject of quantum mechanics and introduces the basic concepts of nanomaterials and the devices fabricated from them. Discussion begins with the basis for understanding the basic properties of semiconductors and gradually evolves to cover quantum structures - including single, multiple, and quantum wells - and the properties of nanomaterial systems, such as quantum wires and dots.
Written by a renowned specialist in the field, this book features:
- An introduction to the growth of bulk semiconductors, semiconductor thin films, and semiconductor nanomaterials
- Information on the application of quantum mechanics to nanomaterial structures and quantum transport
- Extensive coverage of Maxwell-Boltzmann, Fermi-Dirac, and Bose-Einstein stastistics
- An in-depth look at optical, electrical, and transport properties
- Coverage of electronic devices and optoelectronic devices
- Calculations of the energy levels in periodic potentials, quantum wells, and quantum dots
Introduction to Nanomaterials and Devices provides essential groundwork for understanding the behavior and growth of nanomaterials and is a valuable resource for students and practitioners in a field full of possibilities for innovation and invention.Fundamental Constants
Growth of Bulk, Thin Films, and Nanomaterials
Application of Quantum Mechanics to Nanomaterial Structures
Density of States in Semiconductor Materials
Optical Properties
Electrical and Transport Properties
Electronic Devices
Optoelectronic Devices
Appendix Derivation of Heisenberg Uncertainty Principle
Appendix Perturbation
Appendix Angular Momentum
Appendix Wentzel-Kramers-Brillouin (WKB) Approximation
Appendix Parabolic Potential Well
Appendix Transmission Coefficient in Superlattices
Appendix Lattice Vibrations and Phonons
Appendix Tunneling Through Potential Barriers
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