Chemical vapor synthesis of inorganic nanopowders /

Mostrar otras versiones (1)
Detalles Bibliográficos
Clasificación:Libro Electrónico
Autor principal: Sohn, Hong Yong (Autor)
Formato: Electrónico eBook
Idioma:Inglés
Publicado: New York: Nova/Nova Science Publishers, Inc., [2012]
Colección:Chemistry Research and Applications/Nanotechnology Science and Technology.
Temas:
Nanoparticles.
Chemical vapor deposition.
Organic compounds > Synthesis.
Nanoparticules.
Dépôt chimique en phase vapeur.
Composés organiques > Synthèse.
TECHNOLOGY & ENGINEERING > Material Science.
Chemical vapor deposition
Nanoparticles
Organic compounds > Synthesis
Acceso en línea:Texto completo
Tabla de Contenidos:
  • CHEMICAL VAPOR SYNTHESIS OFINORGANIC NANOPOWDERS
  • LIBRARY OF CONGRESS CATALOGING-IN-PUBLICATION DATA
  • CONTENTS
  • PREFACE
  • Chapter 1 INTRODUCTION
  • 1.1. PROMISES AND APPLICATIONS OF NANOMATERIALS
  • 1.2. METHODS OF PRODUCTION
  • 1.3. CHEMICAL VAPOR SYNTHESIS
  • Chapter 2 PRINCIPLES OF CHEMICAL VAPOR SYNTHESIS
  • ABSTRACT
  • 2.1. THERMOCHEMICAL CONSIDERATIONS
  • 2.2. CHLORIDE-BASED REACTIONS
  • 2.3. PLASMA-ASSISTED REACTIONS
  • 2.4. FLAME SYNTHESIS
  • Chapter 3 METALLIC NANOPOWDERS
  • ABSTRACT
  • 3.1. EARLY WORK ON METAL POWDERS
  • 3.2. TUNGSTEN NANOPOWDER
  • PLASMA-ASSISTED
  • Plasma Synthesis
  • Product Characterization
  • Post-Treatment
  • 3.3. ALUMINUM POWDER BY MAGNESIUM REDUCTION
  • Experimental Work
  • Results
  • Conclusion
  • 3.4. TITANIUM POWDER BY MAGNESIUM REDUCTION
  • 3.5. COMPOSITE NANOPOWDERS
  • Magnesium-Titanium
  • Magnesium-Aluminum
  • Tungsten-Cobalt
  • Chapter 4 INTERMETALLIC AND ALLOY POWDERS
  • ABSTRACT
  • 4.1. TITANIUM ALUMINIDES BY MAGNESIUM REDUCTION
  • Experimental Results
  • 4.2. NICKEL ALUMINIDES BY MAGNESIUM REDUCTION
  • Thermodynamic Equilibrium Analysis
  • Experimental Work
  • 4.3. NICKEL ALUMINIDES BY HYDROGEN REDUCTION
  • Thermodynamic Equilibrium Analysis
  • Experimental Work
  • 4.4. OTHER INTERMETALLIC AND ALLOY POWDERS
  • Synthesis of Fe-Co Powders
  • Synthesis of NiMo Powders
  • Preparation of Ni4Mo Coating on Nickel Substrate
  • Chapter 5 TUNGSTEN CARBIDE NANOPOWDER
  • ABSTRACT
  • 5.1. SYNTHESIS FROM TUNGSTEN CHLORIDE
  • Early Investigations
  • Recent Work on Nano-Sized Powder
  • 5.2. PLASMA-ASSISTED SYNTHESIS
  • From WCl6-CH4-H2 Mixtures
  • From Ammonium Paratungstate (APT)
  • 5.3. SYNTHESIS FROM TUNGSTEN CARBONYL
  • Chapter 6 TUNGSTEN CARBIDE
  • COBALT COMPOSITE NANOPOWDER
  • ABSTRACT
  • 6.1. SYNTHESIS FROM CHLORIDES
  • Experimental Apparatus and Procedure
  • Experimental Results.
  • Post-Treatment of Produced Composite Powders
  • 6.2. PLASMA-ASSISTED SYNTHESIS
  • From APT and Co3O4
  • Post-Treatment of Produced Composite Powders
  • Synthesis of W-Co Followed by Separate Carburization
  • Chapter 7 FLAME CHEMICAL VAPOR SYNTHESIS OF SILICA NANOPOWDER
  • ABSTRACT
  • 7.1. SYNTHESIS OF SIO2 NANOPARTICLES FROM TEOS
  • 7.2. SYNTHESIS OF SIO NANOPARTICLES USING TMOS PRODUCED FROM SILICON SLUDGE 2
  • 7.3. FLAME VAPOR SYNTHESIS VS. FLAME SPRAY PYROLYSIS
  • Effect of Precursor Concentration
  • Effect of Flame Temperature
  • Particle Formation Mechanisms
  • Chapter 8 PLASMA-ASSISTED CHEMICAL VAPOR SYNTHESIS OF ZIRCONIA NANOPOWDER
  • ABSTRACT
  • 8.1. SYNTHESIS OF YTTRIA-STABILIZED ZIRCONIA NANOPOWDER
  • 8.2 THERMAL STABILITY OF YTTRIA-STABILIZED ZIRCONIA NANOPOWDER
  • Chapter 9 COMPUTATIONAL FLUID DYNAMIC MODELING OF THE CHEMICAL VAPOR SYNTHESIS PROCESSES
  • ABSTRACT
  • NOMENCLATURE
  • 9.1. INTRODUCTION
  • 9.2. MODEL FORMULATION
  • Governing Equations
  • Gas-Phase Reaction Kinetics
  • Population Balance Model
  • Kinetics of Particle Nucleation and Growth
  • Numerical Solution
  • 9.3. SIMULATION OF ALUMINUM NANOPOWDER CVS
  • 9.4. SIMULATION OF SiO24 NANOPOWDER FLAME SYNTHESIS
  • 9.5. SIMULATION OF WC NANOPOWDER CVS
  • 9.6. COMPARISON BETWEEN THE SIMULATION RESULTS OF SIO2 AND WC NANOPARTICLES
  • CONCLUSION
  • ACKNOWLEDGMENTS
  • REFERENCES
  • INDEX.

Ejemplares similares