Ebook: Nanoalloys: Synthesis, Structure and Properties
Author: Christophe Petit Vincent Repain (auth.) Damien Alloyeau Christine Mottet Christian Ricolleau (eds.)
- Tags: Nanotechnology and Microengineering, Nanotechnology, Nanoscale Science and Technology
- Series: Engineering Materials
- Year: 2012
- Publisher: Springer-Verlag London
- Edition: 1
- Language: English
- pdf
Bimetallic nanoparticles, also called nanoalloys, are at the heart of nanoscience because of their ability to tune together composition and size for specific purposes. By approaching both their physical and chemical properties, Nanoalloys: Synthesis, Structure & Properties provides a comprehensive reference to this research field in nanoscience by addressing the subject from both experimental and theoretical points of view, providing chapters across three main topics:
Growth and structural properties
Thermodynamics and electronic structure of nanoalloys
Magnetic, optic and catalytic properties
The growth and elaboration processes which are the necessary and crucial part of any experimental approach are detailed in the first chapter. Three chapters are focused on the widely used characterization techniques sensitive to both the structural arrangements and chemistry of nanoalloys. The electronic structure of nanoalloys is described as a guide of useful concepts and theoretical tools. Chapters covering thermodynamics begin with bulk alloys, going to nanoalloys via surfaces in order to describe chemical order/disorder, segregation and phase transitions in reduced dimension. Finally, the optical, magnetic and catalytic properties are discussed by focusing on nanoparticles formed with one element to track the modifications which occur when forming nanoalloys.
The range and detail of Nanoalloys: Synthesis, Structure & Properties makes it an ideal resource for postgraduates and researchers working in the field of nanoscience looking to expand and support their knowledge of nanoalloys.
Bimetallic nanoparticles, also called nanoalloys, are at the heart of nanoscience because of their ability to tune together composition and size for specific purposes. By approaching both their physical and chemical properties, Nanoalloys: Synthesis, Structure & Properties provides a comprehensive reference to this research field in nanoscience by addressing the subject from both experimental and theoretical points of view, providing chapters across three main topics:
•Growth and structural properties
•Thermodynamics and electronic structure of nanoalloys
•Magnetic, optic and catalytic properties
The growth and elaboration processes which are the necessary and crucial part of any experimental approach are detailed in the first chapter. Three chapters are focused on the widely used characterization techniques sensitive to both the structural arrangements and chemistry of nanoalloys. The electronic structure of nanoalloys is described as a guide of useful concepts and theoretical tools. Chapters covering thermodynamics begin with bulk alloys, going to nanoalloys via surfaces in order to describe chemical order/disorder, segregation and phase transitions in reduced dimension. Finally, the optical, magnetic and catalytic properties are discussed by focusing on nanoparticles formed with one element to track the modifications which occur when forming nanoalloys.
The range and detail of Nanoalloys: Synthesis, Structure & Properties makes it an ideal resource for postgraduates and researchers working in the field of nanoscience looking to expand and support their knowledge of nanoalloys.
Bimetallic nanoparticles, also called nanoalloys, are at the heart of nanoscience because of their ability to tune together composition and size for specific purposes. By approaching both their physical and chemical properties, Nanoalloys: Synthesis, Structure & Properties provides a comprehensive reference to this research field in nanoscience by addressing the subject from both experimental and theoretical points of view, providing chapters across three main topics:
•Growth and structural properties
•Thermodynamics and electronic structure of nanoalloys
•Magnetic, optic and catalytic properties
The growth and elaboration processes which are the necessary and crucial part of any experimental approach are detailed in the first chapter. Three chapters are focused on the widely used characterization techniques sensitive to both the structural arrangements and chemistry of nanoalloys. The electronic structure of nanoalloys is described as a guide of useful concepts and theoretical tools. Chapters covering thermodynamics begin with bulk alloys, going to nanoalloys via surfaces in order to describe chemical order/disorder, segregation and phase transitions in reduced dimension. Finally, the optical, magnetic and catalytic properties are discussed by focusing on nanoparticles formed with one element to track the modifications which occur when forming nanoalloys.
The range and detail of Nanoalloys: Synthesis, Structure & Properties makes it an ideal resource for postgraduates and researchers working in the field of nanoscience looking to expand and support their knowledge of nanoalloys.
Content:
Front Matter....Pages i-viii
Nucleation and Growth of Bimetallic Nanoparticles....Pages 1-23
Bimetallic Nanoparticles, Grown Under UHV on Insulators, Studied by Scanning Probe Microscopy....Pages 25-68
Probing Nanoalloy Structure and Morphology by X-Ray Scattering Methods....Pages 69-112
Transmission Electron Microscopy: A Multifunctional Tool for the Atomic-scale Characterization of Nanoalloys....Pages 113-157
Electronic Structure of Nanoalloys: A Guide of Useful Concepts and Tools....Pages 159-195
Chemical Order and Disorder in Alloys....Pages 197-225
Segregation and Phase Transitions in Reduced Dimension: From Bulk to Clusters via Surfaces....Pages 227-257
Computational Methods for Predicting the Structures of Nanoalloys....Pages 259-286
Magnetism of Low-Dimension Alloys....Pages 287-330
Optical, Structural and Magneto-Optical Properties of Metal Clusters and Nanoparticles....Pages 331-368
Surface Studies of Catalysis by Metals: Nanosize and Alloying Effects....Pages 369-404
Back Matter....Pages 405-412
Bimetallic nanoparticles, also called nanoalloys, are at the heart of nanoscience because of their ability to tune together composition and size for specific purposes. By approaching both their physical and chemical properties, Nanoalloys: Synthesis, Structure & Properties provides a comprehensive reference to this research field in nanoscience by addressing the subject from both experimental and theoretical points of view, providing chapters across three main topics:
•Growth and structural properties
•Thermodynamics and electronic structure of nanoalloys
•Magnetic, optic and catalytic properties
The growth and elaboration processes which are the necessary and crucial part of any experimental approach are detailed in the first chapter. Three chapters are focused on the widely used characterization techniques sensitive to both the structural arrangements and chemistry of nanoalloys. The electronic structure of nanoalloys is described as a guide of useful concepts and theoretical tools. Chapters covering thermodynamics begin with bulk alloys, going to nanoalloys via surfaces in order to describe chemical order/disorder, segregation and phase transitions in reduced dimension. Finally, the optical, magnetic and catalytic properties are discussed by focusing on nanoparticles formed with one element to track the modifications which occur when forming nanoalloys.
The range and detail of Nanoalloys: Synthesis, Structure & Properties makes it an ideal resource for postgraduates and researchers working in the field of nanoscience looking to expand and support their knowledge of nanoalloys.
Content:
Front Matter....Pages i-viii
Nucleation and Growth of Bimetallic Nanoparticles....Pages 1-23
Bimetallic Nanoparticles, Grown Under UHV on Insulators, Studied by Scanning Probe Microscopy....Pages 25-68
Probing Nanoalloy Structure and Morphology by X-Ray Scattering Methods....Pages 69-112
Transmission Electron Microscopy: A Multifunctional Tool for the Atomic-scale Characterization of Nanoalloys....Pages 113-157
Electronic Structure of Nanoalloys: A Guide of Useful Concepts and Tools....Pages 159-195
Chemical Order and Disorder in Alloys....Pages 197-225
Segregation and Phase Transitions in Reduced Dimension: From Bulk to Clusters via Surfaces....Pages 227-257
Computational Methods for Predicting the Structures of Nanoalloys....Pages 259-286
Magnetism of Low-Dimension Alloys....Pages 287-330
Optical, Structural and Magneto-Optical Properties of Metal Clusters and Nanoparticles....Pages 331-368
Surface Studies of Catalysis by Metals: Nanosize and Alloying Effects....Pages 369-404
Back Matter....Pages 405-412
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