HANDBOOK OF. NANOPHYSICS. Principles and Methods. Edited by. Klaus D.
Sattler. CRC Press. Taylor & Francis Group. Boca Raton. London. NewYork.
HANDBOOK OF
NANOPHYSICS Principles
and
Methods
Edited by
Klaus D. Sattler
CRC Press Taylor & Francis Group Boca Raton
CRC Press is an
Taylor
imprint
London
NewYork
of the
& Francis Group, an informa business
Contents
Preface
ix
Acknowledgments
xi
Editor
xiii
Contributors
Design and Theory
PART I 1
xv
1-1
The Quantum Nature of Nanoscience Marvin L, Cohen
2 Theories for Nanomaterials
2-1
to Realize a Sustainable Future
Rodion V. Belosludov, Natarajan S. Venkataramanan, Hiroshi Mizuseki, Vladimir R. Belosludov, and Yoshiyuki Kawazoe
OlegS. Subbotin, Ryoji Sahara,
3 Tools for Predicting the Properties of Nanomaterials James R. Chelikowsky
3-1
4
4-1
Design of Nanomaterials by Computer Simulations Vijay Kumar
5
Nanocluster Structures
Predicting John
5-1
D. Head
PART II
Nanoscale Systems
6 The Nanoscale Free-Electron Model Daniel F. Urban,
7
Small-Scale
Jerome BiXrki,
Charles A.
Stafford,
6-1 and Hermann Grabert
Nonequilibrium Systems
7-1
Peder C. F. Meller and Lene B. Oddershede
8
Joachim
9
8-1
Nanoionics Maier
Nanoscale Francois M.
Superconductivity Peeters,
Arkady
9-1
A. Shanenko, andMihailD. Croitoru
10 One-Dimensional Quantum Liquids
10-1
Kurt Schdnhammer
11
Nanofluidics of Thin Markus Rauscher and
Liquid Films
Siegfried
Dietrich
11-1
Contents
12 Capillary Condensation
in Confined Media
12-1
Elisabeth Charlaix and Matteo Ciccotti
13 Dynamics
at the Nanoscale
A, Marshall Stoneham and
Jacob
13-1 L, Gavartin
14 Electrochemistry and Nanophysics
14-1
Werner Schindler
Thermodynamics
PART III
15 Nanothermodynamics
15-1
Vladimir Garcia-Morales, Javier Cervera, and Jose A, Manzanares
16 Statistical Mechanics Jurij
Avsec,
17 Phonons Arnaud
Greg
in
16-1
Nanophysics
F. Naterer, and Milan Marcic
in Nanoscale
17-1
Objects
Devos
18 Melting of Finite-Sized Systems Dilip Govind Kanhere and Sajeev Chacko
18-1
19 Melting
19-1
20
Point of Nanomaterials
Pierre Letellier, Alain
Mayaffre,
Phase
Nanosystems
R.
Changes
of
andMireille Turmine 20-1
Stephen Berry
21 Thermodynamic Phase Stabilities of Nanocarbon Qing Jiang and Shuang Li PART IV
21-1
Nanomechanics
22 Computational Nanomechanics
22-1
Wing Kam Liu, Eduard G. Karpov, and Yaling Liu
23 Nanomechanical Properties of the Elements
23-1
Nicola M. Pugno
24 Mechanical Models for Nanomaterials Igor A. Guz, Jeremiah J. Rushchitsky, and Alexander PART V
24-1 N. Guz
Nanomagnetism and Spins
25 Nanomagnetism in Otherwise Nonmagnetic Materials
25-1
Tatiana Makarova
26 Laterally Confined Magnetic
Nanometric Structures
Sergio Valeri, Alessandro di Bona, and
26-1
Gian Carlo Gazzadi
27 Nanoscale Dynamics in Magnetism Yves Acremann and Hans Christoph Siegmann
27-1
28 Spins in Organic Semiconductor Nanostructures Sandipan Pramanik, Bhargava Kanchibotla, and Supriyo Bandyopadhyay
28-1
Contents
Nanoscale Methods
PART VI
29 Nanometrology Stergios Logothetidis
29-1
30 Aerosol Methods for Nanoparticle Synthesis and Characterization
30-1
Andreas Schmidt-Ott
31
Tomography
Saghi
32 Local Probes: Pushing the Adam Z.
33
Stieg and James
Quantitative
31-1
of Nanostructures
GunterMobus andZineb
Limits
Detection and Interaction
of
32-1
K. Gimzewski
Dynamic
Atomic Force
33-1
Microscopy
Robert W. Stark and Martin Stark
34 STM-Based Techniques Combined with Optics Hidemi
35
Shigekawa,
Osamu Takeuchi, Yasuhiko Terada, and
Contact
Experiments with Jbrg Kroger
a
34-1
Shoji Yoshida
Scanning Tunneling Microscope
36 Fundamental Process of Near-Field Interaction Hirokazu Hori and
Tetsuya
35-1
36-1
Inoue
37 Near-Field Photopolymerization and Photoisomerization Renaud Bachelot, Jerome Plain, and Olivier
37-1
Soppera
38 Soft X-Ray Holography for Nanostructure Imaging
38-1
Andreas Scherz
39 Single-Biomolecule Imaging
39-1
Tsumoru Shintake
40 Amplified Single-Molecule Detection Ida Grundberg, Irene Weibrecht, and UlfLandegren Index
40-1
Index-1