Emphasizing properties of these new materials in both solution and solid phase, this book describes the preparation, processing, properties, and practical implications of advanced multiphase systems from macro to nanoscales. It covers copolymers, polymer blends, polymer composites, gels, interpenetrating polymers, and layered polymer/metal structures. It analyzes experimental and theoretical aspects regarding the thermal and electrical transport phenomena and magnetic properties. It reviews advances in morphological, flow behavior, interfacial, physical, fire-resistant, thermophysical, and…mehr
Emphasizing properties of these new materials in both solution and solid phase, this book describes the preparation, processing, properties, and practical implications of advanced multiphase systems from macro to nanoscales. It covers copolymers, polymer blends, polymer composites, gels, interpenetrating polymers, and layered polymer/metal structures. It analyzes experimental and theoretical aspects regarding the thermal and electrical transport phenomena and magnetic properties. It reviews advances in morphological, flow behavior, interfacial, physical, fire-resistant, thermophysical, and biomedical properties of multiphase polymer system. It also discusses research for advanced bio- and nanotechnologies. Catalog no. K27479 September 2016 c. pp. 360 ISBN: 9781498755634 $259.95 / £165.00Hinweis: Dieser Artikel kann nur an eine deutsche Lieferadresse ausgeliefert werden.
Andreea Irina Barzic has been a scientific researcher in the Department of Physical Chemistry of Polymers at the "Petru Poni" Institute of Macromolecular Chemistry, Iasi, Romania, since 2005. She received her PhD in chemistry from the Romanian Academy, Bucharest. Her major fields of interest include polymer blends, composites, and liquid crystal polymers. She has published more than 40 papers in peer-reviewed journals and has authored or co-authored several books. She is also involved in several research projects and is a referee (reviewer) for a number of prestigious journals in the field of polymer science. Silvia Ioan is a senior researcher, with more than 50 years of scientific contributions, at the "Petru Poni" Institute of Macromolecular Chemistry, Iasi, Romania. Her areas of study have included interdisciplinary research for theoretical and experimental substantiations of the processes and technologies at nano-, micro-, and macroscales. These scientific contributions have focused on the participation of some polymers with special architectures in obtaining multifunctional materials including studies concerning the improvement of some properties for predetermined goals and applications. The direction of her research is reflected in many publications, such as books or book chapters and more than 300 scientific papers, as well as in patents, in participation at several national and international scientific conferences, and as leader and member of numerous research projects. She also developed a specialized research group on the characterization of macromolecular compounds in solution and solid states at Romania's Institute of Macromolecular Chemistry. In addition, Dr. Ioan serves as an expert reviewer of several prestigious scientific journals, and she is the PhD supervisor in the materials science domain at the doctoral school of the Romanian Academy-"Petru Poni" Institute of Macromolecular Chemistry, Iasi.
Inhaltsangabe
Section I Multiphase Polymer Systems in Solution Phase. Miscible and Immiscible Polymer Blends: The Impact of Viscosity and Phase-Separation on the Development of Commercial Products. Complex Macromolecular Architectures of Copolymer Solution Assemblies for Regenerative Medicine and Drug Delivery. Porous Polymer Structures by Synthesis from Liquid Two-Phase Systems. Advanced Materials Based on Multicomponent Polymeric Systems. Flow Domains of Polymer Solutions with Liquid Crystal Phase. Microstructure Evolution during Reinforcement of Polymer Solutions. Section II Multiphase Polymer Systems in Solid Phase. Polymer Dispersed Liquid Crystal Design: New Challenges and Applications. From Macro- to Nanoscale Surface Morphological Features of Multiphase Polymer Films. Insights into Depth of Structural Organization Using X-ray Methods. Dynamic Mechanical Analysis in Polymeric Multiphase Systems. Designing Thermophysical Behavior of Polymers with Nanometric Inclusions for Heat Dissipation in Electronic Devices. Polymer Systems Containing Electrically Conductive Single and Multiphases. Polymer Composites with Maleimide Compounds. Fire-Resistant Epoxy Resins Containing Organophosphorus Compounds. Magnetic Polymer Composites for Sensor Applications. Development of Imide Type Polymer Fibers Containing Metal Nanoparticles. Electrochemical Inclusion of Metallic Clusters in Organic Polymers. Thin Metal Films on Polymer Substrate.
Section I Multiphase Polymer Systems in Solution Phase. Miscible and Immiscible Polymer Blends: The Impact of Viscosity and Phase-Separation on the Development of Commercial Products. Complex Macromolecular Architectures of Copolymer Solution Assemblies for Regenerative Medicine and Drug Delivery. Porous Polymer Structures by Synthesis from Liquid Two-Phase Systems. Advanced Materials Based on Multicomponent Polymeric Systems. Flow Domains of Polymer Solutions with Liquid Crystal Phase. Microstructure Evolution during Reinforcement of Polymer Solutions. Section II Multiphase Polymer Systems in Solid Phase. Polymer Dispersed Liquid Crystal Design: New Challenges and Applications. From Macro- to Nanoscale Surface Morphological Features of Multiphase Polymer Films. Insights into Depth of Structural Organization Using X-ray Methods. Dynamic Mechanical Analysis in Polymeric Multiphase Systems. Designing Thermophysical Behavior of Polymers with Nanometric Inclusions for Heat Dissipation in Electronic Devices. Polymer Systems Containing Electrically Conductive Single and Multiphases. Polymer Composites with Maleimide Compounds. Fire-Resistant Epoxy Resins Containing Organophosphorus Compounds. Magnetic Polymer Composites for Sensor Applications. Development of Imide Type Polymer Fibers Containing Metal Nanoparticles. Electrochemical Inclusion of Metallic Clusters in Organic Polymers. Thin Metal Films on Polymer Substrate.
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