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Polymer Carbon Nanotube Composites The Polymer Latex Concept

Langue : Anglais

Coordonnateurs : Koning Cor, Hermant Marie-Claire, Grossiord Nadia

Couverture de l’ouvrage Polymer Carbon Nanotube Composites
This book provides readers with a comprehensive toolbox for dispersing single-walled and multiwalled carbon nanotubes in thermoplastic polymer matrices. The book starts with an overview of all known techniques for dispersing CNTs in thermoplastic polymers and then concentrates on one of the most versatile techniques known nowadays: the so-called latex technology. Also discussed are the basic principles of this latex technology, the role of the matrix viscosity on percolation threshold, the importance of the intrinsic CNT quality, the use of "smart" surfactants facilitating electron transport in the final composite, the preparation of highly loaded master-batches, which can be diluted with virgin polymer by melt-extrusion, and some promising potential applications.

IntroductionComposite Materials
Altered Behavior of Nano-Fillers
Carbon Nanotubes and Composites Thereof
Percolation Theory for Rods
Scope of This Book
Toolbox for Dispersing Carbon Nanotubes into Polymers to Get Electrically Conductive NanocompositesGeneral Introduction
Incorporation of CNTs into a Polymer Matrix: A Challenge
Ultrasound
CNT Purification
Methods to Disperse Individual CNTs in a Polymer Matrix
Conclusions
Tailoring and Monitoring the Sonication-Driven Dispersion of Carbon Nanotubes in Aqueous Surfactant SolutionsIntroduction
Characterization of the Bundling of CNT Aqueous Dispersions in General; Monitoring of the Debundling Process in Particular: A Short Overview of Suitable Characterization Techniques
Optimization of the CNT Debundling Parameters to Make Conductive CNT/Polymer Nanocomposites with UV-Vis Spectroscopy
Food for Thought: A Critic of Purification of SWCNTs
Centrifugation of Aqueous Surfactant-CNT Dispersions
Conclusions
Aspects of Processing Methods and Conditions Affecting Percolation NetworksSegregated Networks and Dynamic Percolation
The Role of the Matrix Viscosity: Molecular Weight Distributions and Processing Temperatures
Processing Techniques and Percolation Thresholds
Conclusions
On the Versatility of the Latex-Based Process Regarding the Choice of the Polymer Matrix of the NanocompositeIntroduction
Semi-Crystalline Polypropylene Matrix
Polymer Blends
Conclusions
Manipulating the Percolation of CNTs Using Hybrid Composite SystemsIntroduction
Eliminating Non-Contact Resistivity
General Conclusions
Future PerspectivesIntroduction: Toward Large-Scale Production
Food for Thought: Possible Applications of CNT/Polymer Composites?
What’s Next?
Index

Academic and industrial researchers in the field of polymer/nanocomposites, physics, chemistry, and materials science; managers of startup companies in the field of functional polymer systems.
Cor Koning, Marie-Claire Hermant, Nadia Grossiord