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Handbook of Nanophysics

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advanced cluster physics applications
atomic force interactions
Bimetallic Clusters
C20 Solids
C28 Cages
C60 Molecule
caged
carbon
Carbon Fullerenes in Contact
Carbon Onions
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cluster
Clusters in Contact
Convex Polyhedra
Coulomb Explosion
density
electronic structure modeling
endohedral
Endohedral Fullerene
Endohedral Metallofullerenes
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Free Clusters
fullerene
Fullerene Cage
Fullerene Derivatives
Fullerene Molecules
functional
Helium Nanodroplets
HOMO-LUMO Gap
Hydrogen Clusters
inorganic nanostructures
Jellium
Jellium Model
KER
Large HOMO-LUMO Gap
Metal Clusters
molecules
nanomaterial synthesis
Photoelectron Spectra
Production and Stability of Carbon Fullerenes
quantum confinement effects
Rare Gas Clusters
size
Smaller Fullerenes
Stone Wales Transformation
Structure and Properties of Carbon Fullerenes
theory
thermal conductivity analysis
Transition Metal

Product details

  • ISBN 9781138115101
  • Weight: 1680g
  • 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

The field of nanoscience was pioneered in the 1980s with the groundbreaking research on clusters, which later led to the discovery of fullerenes. Handbook of Nanophysics: Clusters and Fullerenes focuses on the fundamental physics of these nanoscale materials and structures. 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 free clusters, including hydrogen, bimetallic, silicon, metal, and atomic clusters, as well as the cluster interactions. The expert contributors examine how carbon fullerenes are produced and how to characterize their stability. They discuss the structure, properties, and behavior of carbon fullerenes, including the smallest possible fullerene: C20. The book also looks at inorganic fullerenes, such as boron fullerenes, silicon fullerenes, nanocones, and onion-like inorganic fullerenes.

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