Nanostructures and Nanotechnology
Höfundur: Douglas Natelson
10.290 kr.
Lýsing:
Focusing on the fundamental principles of nanoscience and nanotechnology, this carefully developed textbook will equip students with a deep understanding of the nanoscale. • Each new topic is introduced with a concise summary of the relevant physical principles, emphasising universal commonalities between seemingly disparate areas, and encouraging students to develop an intuitive understanding of this diverse area of study • Accessible introductions to condensed matter physics and materials systems provide students from a broad range of scientific disciplines with all the necessary background • Theoretical concepts are linked to real-world applications, allowing students to connect theory and practice • Chapters are packed with problems to help students develop and retain their understanding, as well as engaging colour illustrations, and are accompanied by suggestions for additional reading.
Annað
- Höfundur: Douglas Natelson
- Útgáfa:1
- Útgáfudagur: 2015-06-18
- Hægt að prenta út 5 bls.
- Hægt að afrita 5 bls.
- Format:ePub
- ISBN 13: 9781316365182
- Print ISBN: 9780521877008
- ISBN 10: 1316365182
Efnisyfirlit
- Coverpage
- Halftitle page
- Title page
- Copyright page
- Contents
- Preface
- Part I
- 1 Introduction and overview
- 1.1 What is nanotechnology?
- 1.2 Sizes of things
- 1.3 Important length scales: breaking a wire
- 1.4 The structure of this book
- 2 Solid state physics in a nutshell
- 2.1 Free electrons
- 2.2 Nearly free electrons
- 2.3 Chemical approaches to electronic structure
- 2.4 More modern electronic structure methods
- 2.5 Lattice dynamics: phonons
- 2.6 Summary and perspective
- 2.7 Suggested reading
- Exercises
- 3 Bulk materials
- 3.1 Electronic types of solids
- 3.2 Metals
- 3.3 Inorganic semiconductors
- 3.4 Band insulators
- 3.5 Correlated oxides
- 3.6 Molecular structures
- 3.7 Summary and perspective
- 3.8 Suggested reading
- Exercises
- 4 Fabrication and characterization at the nanoscale
- 4.1 Characterization
- 4.2 Materials growth
- 4.3 Material removal
- 4.4 Patterning
- 4.5 Summary
- 4.6 Suggested reading
- Exercises
- 5 Real solids: defects, interactions, confinement
- 5.1 Defects
- 5.2 Interfaces and surfaces
- 5.3 Screening
- 5.4 Excitons
- 5.5 Junctions between materials
- 5.6 Quantum wires
- 5.7 Quantum dots
- 5.8 Summary and perspectives
- 5.9 Suggested reading
- Exercises
- 1 Introduction and overview
- 6 Charge transport and nanoelectronics
- 6.1 Transport terminology
- 6.2 Kinetic concepts
- 6.3 Hall effect
- 6.4 Quantum transport
- 6.5 The classical MOSFET
- 6.6 State-of-the-art
- 6.7 Beyond CMOS
- 6.8 Summary and perspective
- 6.9 Suggested reading
- Exercises
- 7 Magnetism and magnetoelectronics
- 7.1 Definitions and units
- 7.2 Magnetic order
- 7.3 Energy and magnetic configurations
- 7.4 Magnetism at small scales
- 7.5 Magnetic data storage and magnetoelectronics
- 7.6 The future: spintronics
- 7.7 Nanomagnetism: other applications
- 7.8 Summary and perspective
- 7.9 Further reading
- Exercises
- 8 Photonics
- 8.1 Electromagnetic radiation in a nutshell
- 8.2 Lasers
- 8.3 A brief overview of optical communications
- 8.4 Photonic band gap systems
- 8.5 Nanophotonics: near-field optics
- 8.6 Nanophotonics: plasmonics
- 8.7 Summary
- 8.8 Suggested reading
- Exercises
- 9 Micro- and nanomechanics
- 9.1 Basics of solid continuum mechanics
- 9.2 Tribology
- 9.3 Microelectromechanical systems (MEMS)
- 9.4 Nanoelectromechanical systems
- 9.5 Summary
- 9.6 Suggested reading
- Exercises
- 10 Micro- and nanofluidics
- 10.1 Basic fluid mechanics
- 10.2 A digression: dimensional analysis
- 10.3 Laminar flow
- 10.4 Surface interactions
- 10.5 Electrolytes
- 10.6 Microfluidic devices
- 10.7 Nanofluidics
- 10.8 Summary
- 10.9 Suggested reading
- Exercises
- 11 Bionanotechnology: a very brief overview
- 11.1 Basic elements and tools of bionano
- 11.2 Leveraging biology
- 11.3 Nanotechnology and biosensing
- 11.4 Frontiers
- 11.5 Summary
- 11.6 Suggested reading
- Exercises
- 12 Nanotechnology and the future
- 12.1 Nanotechnology and energy
- 12.2 Dangers of nanotechnology?
- 12.3 Prognosis
- 12.4 Summary
- 12.5 Suggested reading
- Appendix Common quantum mechanics and statistical mechanics results
- A.1 A review of perturbation theory
- A.2 The vector potential
- A.3 The Einstein relation
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- Gerð : 208
- Höfundur : 8285
- Útgáfuár : 2015
- Leyfi : 380
