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Cover image for Nanomaterials : properties, preparation and processes
Title:
Nanomaterials : properties, preparation and processes
Series:
Nanotechnology science and technology series
Publication Information:
New York : Nova Science Pub., 2010
Physical Description:
xvi, 412 p. : ill. ; 27 cm.
ISBN:
9781608766277

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30000010264986 TA418.9.N35 N3294 2010 Open Access Book Book
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Summary

Summary

Nanosized composite materials are getting more and more important because of their unique properties. In addition, the preparation of nanoparticles dispersed into solid hosts is nowadays attracting scientific and technological interest because the properties of these hybrid systems are different and often improved, compared with their isolated counterparts. This book investigates the modelling of the mechanical properties of polycaprolactone-layered silicates nanocomposites. Nanoparticles of iron oxide are also currently being explored for their diverse range of application such as magnetic storage media, environment protection, sensors, catalysis, clinical diagnosis and treatment etc. Furthermore, in spite of the fact that the magnetic pulsed processing is used for the powder compaction since the 60's, the considerable advances of this method for the nanopowders compaction has been established not long ago. In this book, the theoretical description of the magnetic pulsed compaction processes are presented. The mechanism, regulation and co-ordination of linear nanomotors are also discussed. Other chapters in this book explore the phase selective and morphology controllable processing of titania (TiO2) nanocrystals and their enhanced functionality via doping for photocatalytic, luminescent and magnetic applications.


Table of Contents

Preface
Theory of the Magnetic Pulsed Compaction of Nanosized Powders
TiO2 Nanocrystals: Phase Selective & Morphology Controllable Synthesis & their Enhanced Functionality via Doping
Mechanical & Dynamical Principles of Protein Nanomotors: The Key to Nano-Engineering Applications
Nanocomposite Metal Oxides: An Easy Way to Design Catalysts with Desired Functional Properties
Mechanism of Formation of Oxide Nanopowders by Anodic Oxidation of Metals in Molten Salts
Size-Controllable Synthesis & Characterization of Wide Band Gap Semiconductor Oxide Nanoparticles
Nanostructured Catalysts: Synthesis, Characterization & Properties of Vanadia-Titania/SBA-15 Catalysts for SCR Application
Evaluation of Methods for Stiffness Predictions of Polymer Based Nanocomposites: Theoretical Background & Example of Application (PCL-Clay Nanocomposites)
Development of Novel but Simple Aqueous Solution Based Chemical Methodologies for Synthesis of Pure Nanostructured a-Fe2O3 Powders & the Effect of Nanostructure on the Electrical & Magnetic Properties
Functional Surface Development by Nano Plastic Forming
Index
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