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Handbook of Nanophysics

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advanced materials science
Anodic Alumina
Binding Energies
brillouin
carbon
Category=PHFC
CNTs
density
Dirac Point
dot
electronic transport properties
Epitaxial Graphene
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FE SEM Photograph
fermi
functional
Graphene Nanoribbons
Graphene Nanostructures
Graphene Quantum Dots
Graphene Sheet
H2 Molecule
Hydrogen Storage
Indentation and Patterning
interdisciplinary nanotechnology
Metal Assisted Chemical Etching
Nano-Oscillators
Nanocomposites
Nanohole Arrays
nanomaterial characterization
Nanomechanical Resonators
Nanoporous and Nanocage Materials
Nanoporous Carbon
Nanoporous Materials
nanoscale mechanical testing
nanostructure functionalization for sensors
nanotube
Polymer Clay Nanocomposites
QDIP
QDs
quantum
quantum confinement effects
Self-Assembled Monolayers
SEM
STM
theory
Transition Metal
Zigzag Nanoribbons
zone

Product details

  • ISBN 9781138111936
  • Weight: 1460g
  • Dimensions: 210 x 280mm
  • Publication Date: 30 Aug 2017
  • Publisher: Taylor & Francis Ltd
  • Publication City/Country: GB
  • Product Form: Paperback
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Description

Handbook of Nanophysics: Functional Nanomaterials illustrates the importance of tailoring nanomaterials to achieve desired functions in applications. Each peer-reviewed chapter contains a broad-based introduction and enhances understanding of the state-of-the-art scientific content through fundamental equations and illustrations, some in color.

This volume covers various composites, including carbon nanotube/polymer composites, printable metal nanoparticle inks, polymer–clay nanocomposites, biofunctionalized titanium dioxide-based nanocomposites, nanocolorants, ferroic nanocomposites, and smart composite systems. It also describes nanoporous materials, a giant nanomembrane, graphitic foams, arrayed nanoporous silicon pillars, nanoporous anodic oxides, metal oxide nanohole arrays, carbon clathrates, self-assembled monolayers, epitaxial graphene, and graphene nanoribbons, nanostructures, quantum dots, and cones. After focusing on the methods of nanoindentation and self-patterning, the book discusses nanosensors, nano-oscillators, and hydrogen storage.

Nanophysics brings together multiple disciplines to determine the structural, electronic, optical, and thermal behavior of nanomaterials; electrical and thermal conductivity; the forces between nanoscale objects; and the transition between classical and quantum behavior. Facilitating communication across many disciplines, this landmark publication encourages scientists with disparate interests to collaborate on interdisciplinary projects and incorporate the theory and methodology of other areas into their work.
About

Klaus D. Sattler is a professor of physics at the University of Hawaii-Manoa in Honolulu. A pioneer in nanophysics, Dr. Sattler built the first atomic cluster source in 1980, which became a cornerstone for nanoscience and nanotechnology. In 1994, his research group at the University of Hawaii produced the first carbon nanocones. His current research focuses on novel nanomaterials, tunneling spectroscopy of quantum dots, and solar photocatalysis with nanoparticles for the purification of water. Dr. Sattler has been a recipient of the Walter Schottky Prize from the German Physical Society