Nanotechnologies. The Physics of Nanomaterials Volume 2, Physical Properties of Nanostructured Materials and Their Applications

Par : David Schmool
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  • Nombre de pages515
  • PrésentationRelié
  • FormatGrand Format
  • Poids0.96 kg
  • Dimensions16,1 cm × 24,0 cm × 3,3 cm
  • ISBN978-1-77188-949-0
  • EAN9781771889490
  • Date de parution05/11/2020
  • ÉditeurApple Academic Press

Résumé

The two-volume Nanotechnologies : The Physics of Nanomaterials provides a good overview of the main techniques of the working principles and the type of structures that can be produced with nanomaterials. Specifically, Volume 2 discusses the mechanical, electrical, and optical properties of nanostructures as well as nanomagnetism, spintronics, spin dynamics, as well as a broad range of applications to illustrate how the physical properties of materials can be manipulated to perform very specific functions.
The book is a comprehensive guide to the various aspects of nanophysics. The author's microscopic approach illustrates how physical principles can be used to understand the basic properties and functioning of low-dimensional systems. It provides an in-depth introduction to the techniques of production and analysis of materials at the nanoscopic level. Much of physics is based on our understanding of solid-state physics.
These volumes show how limitations of size can give rise to new physical properties and quantum effects, which can be exploited in newapplications and devices. Key features : Provides a comprehensive treatment of nanoscience, covering all major areas of the physics involved in nanostructures, including sample preparation techniques, characterization methods, physical principles, and applications ; Presents an introduction and summary to each chapter, highlighting the principal ideas in a concise manner ; Includes revision problems that allow students to assess their progress at the end of each chapter ; Incorporates the author's 25 years research experience.
Volume 1 : The Physics of Surfaces and Nanofabrication Techniques provides a broad introduction to nanophysics and nanotechnologies, and the importance of low-dimensional and surface physics is discussed in depth.
The two-volume Nanotechnologies : The Physics of Nanomaterials provides a good overview of the main techniques of the working principles and the type of structures that can be produced with nanomaterials. Specifically, Volume 2 discusses the mechanical, electrical, and optical properties of nanostructures as well as nanomagnetism, spintronics, spin dynamics, as well as a broad range of applications to illustrate how the physical properties of materials can be manipulated to perform very specific functions.
The book is a comprehensive guide to the various aspects of nanophysics. The author's microscopic approach illustrates how physical principles can be used to understand the basic properties and functioning of low-dimensional systems. It provides an in-depth introduction to the techniques of production and analysis of materials at the nanoscopic level. Much of physics is based on our understanding of solid-state physics.
These volumes show how limitations of size can give rise to new physical properties and quantum effects, which can be exploited in newapplications and devices. Key features : Provides a comprehensive treatment of nanoscience, covering all major areas of the physics involved in nanostructures, including sample preparation techniques, characterization methods, physical principles, and applications ; Presents an introduction and summary to each chapter, highlighting the principal ideas in a concise manner ; Includes revision problems that allow students to assess their progress at the end of each chapter ; Incorporates the author's 25 years research experience.
Volume 1 : The Physics of Surfaces and Nanofabrication Techniques provides a broad introduction to nanophysics and nanotechnologies, and the importance of low-dimensional and surface physics is discussed in depth.