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Polymer Science: A Comprehensive ReferenceFrom Elsevier Science
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The progress in polymer science is revealed in the chapters of Polymer Science: A Comprehensive Reference. In Volume 1, this is reflected in the improved understanding of the properties of polymers in solution, in bulk and in confined situations such as in thin films. Volume 2 addresses new characterization techniques, such as high resolution optical microscopy, scanning probe microscopy and other procedures for surface and interface characterization. Volume 3 presents the great progress achieved in precise synthetic polymerization techniques for vinyl monomers to control macromolecular architecture: the development of metallocene and post-metallocene catalysis for olefin polymerization, new ionic polymerization procedures, and atom transfer radical polymerization, nitroxide mediated polymerization, and reversible addition-fragmentation chain transfer systems as the most often used controlled/living radical polymerization methods. Volume 4 is devoted to kinetics, mechanisms and applications of ring opening polymerization of heterocyclic monomers and cycloolefins (ROMP), as well as to various less common polymerization techniques. Polycondensation and non-chain polymerizations, including dendrimer synthesis and various "click" procedures, are covered in Volume 5. Volume 6 focuses on several aspects of controlled macromolecular architectures and soft nano-objects including hybrids and bioconjugates. Many of the achievements would have not been possible without new characterization techniques like AFM that allowed direct imaging of single molecules and nano-objects with a precision available only recently. An entirely new aspect in polymer science is based on the combination of bottom-up methods such as polymer synthesis and molecularly programmed self-assembly with top-down structuring such as lithography and surface templating, as presented in Volume 7. It encompasses polymer and nanoparticle assembly in bulk and under confined conditions or influenced by an external field, including thin films, inorganic-organic hybrids, or nanofibers. Volume 8 expands these concepts focusing on applications in advanced technologies, e.g. in electronic industry and centers on combination with top down approach and functional properties like conductivity. Another type of functionality that is of rapidly increasing importance in polymer science is introduced in volume 9. It deals with various aspects of polymers in biology and medicine, including the response of living cells and tissue to the contact with biofunctional particles and surfaces. The last volume is devoted to the scope and potential provided by environmentally benign and green polymers, as well as energy-related polymers. They discuss new technologies needed for a sustainable economy in our world of limited resources.
- Provides broad and in-depth coverage of all aspects of polymer science from synthesis/polymerization, properties, and characterization methods and techniques to nanostructures, sustainability and energy, and biomedical uses of polymers
- Provides a definitive source for those entering or researching in this area by integrating the multidisciplinary aspects of the science into one unique, up-to-date reference work
- Electronic version has complete cross-referencing and multi-media components
- Volume editors are world experts in their field (including a Nobel Prize winner)
- Sales Rank: #3099268 in eBooks
- Published on: 2012-12-05
- Released on: 2012-12-05
- Format: Kindle eBook
Review
"Polymer Science: A Comprehensive Reference provides complete and up-to-date coverage of the most important contemporary aspects and fundamental concepts of polymer science. It will become the indispensable reference not only for polymer scientists but also for all researchers in disciplines related to macromolecular systems." --Excerpt from Foreword, Jean-Marie Lehn, ISIS-Universite de Strasbourg, Strasbourg, France, Nobel Prize Laureate in Chemistry
From the Back Cover
The progress in polymer science is revealed in essentially all chapters of Polymer Science: A Comprehensive Reference. In Volume 1, edited by Khokhlov and Kremer, this is reflected in the improved understanding of the properties of polymers in solution, in bulk and in confined situations such as in thin films. Volume 2, edited by Spiess, Hashimoto and Takenaka, addresses new characterization techniques, such as high resolution optical microscopy, scanning probe microscopy and other procedures for surface and interface characterization. Volume 3, edited by Coates and Sawamoto, presents the great progress achieved in precise synthetic polymerization techniques for vinyl monomers to control macromolecular architecture: the development of metallocene and post-metallocene catalysis for olefin polymerization, new ionic polymerization procedures, and atom transfer radical polymerization, nitroxide mediated polymerization, and reversible addition-fragmentation chain transfer systems as the most often used controlled/living radical polymerization methods. Volume 4, edited by Penczek and Grubbs, is devoted to kinetics, mechanisms and applications of ring opening polymerization of heterocyclic monomers and cycloolefins (ROMP), as well as to various less common polymerization techniques. Polycondensation and non-chain polymerizations, including dendrimer synthesis and various "click" procedures, are covered in Volume 5, edited by Schmidt and Ueda. Volume 6, edited by Mueller and Wooley, focuses on several aspects of controlled macromolecular architectures and soft nano-objects including hybrids and bioconjugates. Many of the achievements would have not been possible without new characterization techniques like AFM that allowed direct imaging of single molecules and nano-objects with a precision available only recently. An entirely new aspect in polymer science is based on the combination of bottom-up methods such as polymer synthesis and molecularly programmed self-assembly with top-down structuring such as lithography and surface templating, as presented in volume 7, edited by Kumacheva and Russell. It encompasses polymer and nanoparticle assembly in bulk and under confined conditions or influenced by an external field, including thin films, inorganic-organic hybrids, or nanofibers. Volume 8, edited by Muellen and Ober, expands these concepts focusing on applications in advanced technologies, e.g. in electronic industry and centers on combination with top down approach and functional properties like conductivity. Another type of functionality that is of rapidly increasing importance in polymer science is introduced in volume 9, edited by Langer and Tirrell. It deals with various aspects of polymers in biology and medicine, including the response of living cells and tissue to the contact with biofunctional particles and surfaces. The last volume 10, edited by Hoefer, Hickner and McGrath, is devoted to the scope and potential provided by environmentally benign and green polymers, as well as energy-related polymers. They discuss new technologies needed for a sustainable economy in our world of limited resources. Common to all approaches in Polymer Science: A Comprehensive Reference is mastering an increasing complexity of the polymer materials structure needed for a change in focus from commodities to materials for various advanced applications, related to energy, environment, and biomedicine.
About the Author
Martin Möeller is Professor of Textile and Macromolecular Chemistry and Director of DWI at RWTH Aachen University. His research interests include polymers, structure-property relationships and self organization of macromolecules, surface modification and activation, formation of functional nanostructures and organic - inorganic hybrid structures. Prior to working at RWTH Aachen University, Möeller was professor at the University of Ulm and University of Twente. He is a member of Deutsche Akademie der Technikwissenschaften (acatech) and of the Academy of Sciences of the State of North-Rhine Westphalia.
Krzysztof Matyjaszewski is J.C. Warner University Professor of Natural Sciences and director of Center for Macromolecular Engineering at Carnegie Mellon University and also Adjunct Professor at the Polish Academy of Sciences. His research interests include controlled/living radical polymerization, catalysis, environmental chemistry, and advanced materials for optoelectronic and biomedical applications. Matyjaszewski is the editor of Progress in Polymer Science and Central European Journal of Chemistry and a member of US National Academy of Engineering, Polish Academy of Sciences and Russian Academy of Sciences.
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