Nanotechnologies 1st English Edition by Michel Wautelet Et Al ISBN 9780863419416 0863419410
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Product details:
ISBN 10: 0863419410
ISBN 13: 9780863419416
Author: Michel Wautelet Et Al.
Table of contents:
1. The Nanotechnology Revolution
1.1 From Micro to Nanoelectronics
1.2 From the Macroscopic to the Nanoscopical World
1.3 From the Fundamental to the Applications
1.4 A Different Physics
1.4.1 Scale Law
1.4.2 Mechanics
1.4.3 Fluid Mechanics
1.4.4 Electromagnetism
1.4.5 Thermodynamics
1.4.6 Optics
1.5 Some Examples
1.6 Various Applications
1.6.1 Nanoelectronics
1.6.2 Biotechnologies
1.6.3 Biomedical Field
1.6.4 Space Domain
1.6.5 Sustainable Development
2. Atomic Structure and Cohesion
2.1 Surfaces and Interfaces
2.1.1 Superficial Tension
2.1.2 Crystals’ Shape
2.1.3 Drops and Contact Angles
2.1.4 Development of Films on Top of a Substrate
2.1.5 Adhesion Phenomena
2.1.6 Adhesion Work
2.2 Thermodynamics of Nanoparticles
2.2.1 Thermodynamics Description
2.2.2 Temperature Definitions
2.2.3 Nanoparticles’ energy
2.2.4 Fusion of spherical nanoparticles
2.2.5 Fusion of non-spherical nanoparticles
2.2.6 Phase diagrams of nanoparticles
2.2.7 Nanoparticle stability
2.3 From the atom to the nanoparticle
2.3.1 Atom clusters
2.3.2 Nanoparticles
2.3.3 Magic numbers
2.3.4 Fullerenes
2.3.5 Nanotubes
2.3.6 Filling of nanotubes
2.3.7 Geometric shape of non-hollow clusters
2.3.8 Shape fluctuations
3 Electronic structures of nanosystems
3.1 Electrons in matter
3.1.1 An electron in a one-dimensional potential well
3.1.2 An electron in a spherical potential well
3.1.3 An electron in the hydrogen atom
3.1.4 An electron in a periodical potential
3.1.5 Electron, hole, and exciton
3.1.6 From zero to three dimensions
3.2 From the solid to the nanoparticle
3.2.1 Weak confinement
3.2.2 Strong confinement
3.3 Optical properties of metallic nanoparticles
3.4 Electrical properties: the Coulomb blockade
3.5 Quantization of electrical conductivity
4 Molecular electronics
4.1 Molecular wires
4.1.1 Mechanical junctions
4.1.2 The contribution of high-resolution microscopy
4.1.3 Current through a molecule
4.1.4 Coulomb blockade
4.2 Molecular rectifiers
4.3 Molecular transistors
4.4 Molecular resonant tunneling diodes
4.5 Molecular memories
4.6 Towards the molecular computer
5 Neuroelectronics
5.1 When electronics meets biology
5.1.1 Communication between neurons and transistors
5.1.2 Neurons’ control over integrated circuits
5.1.3 Electronic circuit between two neurons
5.2 A computer based on the DNA double helix
6 Plastic electronics
6.1 Conjugation in conducting polymers
6.2 Electronic structure and electron–phonon coupling
6.3 Charge transport
6.4 Electronic excitations and optical properties
6.5 Plastic electronics
6.5.1 Organic light-emitting diodes
6.5.2 Photovoltaic sensors and organic solar cells
6.5.3 Organic transistors and plastic integrated circuits
6.5.4 Field-effect transistors
6.5.5 Purity of compounds and field mobility
6.5.6 Ideal structures and possible ones
6.5.7 Polymer-based biochemical sensors
6.6 Photoluminescent conjugated polymers
6.6.1 Chemical sensors
6.6.2 Biological sensors
6.7 I/V response of field-effect organic transistor
6.8 Doped conjugated polymers
7 Fabrication of nanostructures
7.1 Situation of the problem
7.2 Contribution of supramolecular chemistry
7.3 Semi-conducting nanoribbons
7.4 Creation of nanostructures
7.4.1 Natural structured surface
7.4.2 Nanolithography
7.4.3 Micro-contact printing
7.4.4 Ink-jet printing
7.5 Patterning
7.6 Hybrid techniques
7.7 Writing via local probe microscopy
7.8 Design and development of molecular circuits
8 Organic-matrix-based nanocomposites
8.1 Types of nanoparticle
8.1.1 Nanoparticles with three nanometric dimensions
8.1.2 Nanoparticles with two nanometric dimensions
8.1.3 Nanoparticles with a single nanometric dimension
8.2 Preparation of nanocomposites
8.2.1 Dispersion of nanoparticles in a preformed polymer matrix
8.2.2 Matrix synthesis in the presence of nanoparticles
8.2.3 Preparation of nanoparticles in organic matrix
8.3 Characterization and properties
8.3.1 Morphological characterization: tools and techniques
8.3.2 Properties
8.4 Applications
8.4.1 Nylon-6 smectite nanocomposites for cling film
8.4.2 Nanocomposites based on vinyl ethylene-acetate copolymer in the electric cable industry
8.5 Prospects
9 Nanomagnetism
9.1 Magnetism in matter
9.1.1 Diamagnetism and paramagnetism
9.1.2 Ferromagnetism and Weiss domains
9.1.3 Superparamagnetism
9.1.4 Antiferromagnetism
9.2 Superparamagnetic colloids
9.2.1 Properties
9.2.2 Synthesis
9.2.3 Magnetoliposomes
9.2.4 Characterization of superparamagnetic colloids
9.3 Nanomagnets in thermotherapy
9.3.1 Heating tumours to destroy them
9.3.2 Absorption of radiofrequency waves by nanomagnets
9.3.3 Results
9.4 Biomagnetism
9.4.1 Iron in biology
9.4.2 Molluscs
9.4.3 Magnetotactic bacteria
9.4.4 The magnetic navigation of animals
9.4.5 Ferritin
10 Nanotechnologies in perspective
10.1 Health and environmental issues
10.2 Military interests
10.3 Media and ethical considerations
10.4 NBIC
10.5 Education issues
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Michel Wautelet Et Al,Nanotechnologies