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The design and the realisation of well defined polymer architectures has become an important goal in macromolecular science. The prerequisite for achieving this goal is the availability of controlled polymerisation reactions. Living anionic polymerisation was the first reaction fulfilling these requirements. Cationic polymerisation only came into play when it was realised that it was possible to create an equilibrium between active and dormant species with the fraction of the dormant species being far superior to that of active ones. A corresponding principle applies to controlled radical polymerisation per formed in quite a number of modes such as nitroxide mediated polymerisation (NMP), atom transfer radical polymerisation (ATRP), reversible addition frag mentation chain transfer (RAFT) or catalytic chain transfer (CCT) reactions. All of these variants of controlled radical polymerisation lead to well defined archi tectures with the particular advantage that a much larger number of monomers are suitable and the reaction conditions are much less demanding than those of living ionic polymerisation reactions. Although in controlled radical polymerisation, termination reactions cannot be excluded completely, they are limited in their extent and consequently the mol ecular weight is controlled, the polydispersity index is small and functionalities can be attached to the macromolecules. These features are indicative of the real isation of well defined polymer architectures such as block copolymers, star shaped and comb shaped copolymers.
Recent progress in the field of controlled/living radical polymerization.
Klassische und moderne Verfahren der radikalischen Polymerisation: In diesem handlichen Band finden Sie Antworten auf theoretische und praktische Fragen. Neben grundlegenden Ausführungen zur Einteilung radikalischer Polymere sind Angaben über die wichtigsten experimentellen Verfahren zur Synthese, Reinigung und Charakterisierung von Polymeren enthalten. Interessante Zugabe: ein Abriß der Geschichte der Radikalkettenpolymerisation.
The improvement of strength and durability in polymers has implications relevant to industrial, medical, and household applications. Enhanced by the improved knowledge of the interactions between complex hierarchical structures and functional requirements, Mechanical Properties of Polymers Based on Nanostructure and Morphology focuses on new polyme
Enables readers to understand core concepts behind organic polymers and their multifunctional applications, focusing on environmental and sustainable applications Organic Polymers in Energy-Environmental Applications provides comprehensive coverage of polymerization and functionalization of organic polymers, followed by innovative approaches, sustainable technologies, and solutions for energy and environmental applications, including environmental remediation, energy storage, corrosion protection, and more. Edited by five highly qualified academics with significant experience in the field, Organic Polymers in Energy-Environmental Applications includes discussion on: Characteristics and emerging trends of organic polymers, and organic polymers in imaging industries and curable coatings Antifouling technology based on organic polymers and wearable technology featuring multifunctional sensor arrays in biomedicine Organic bio-adhesive polymers in filter technology, nano-architectured organic polymers, and market dynamics of organic polymer-based technologies Organic and inorganic modifications of polymers, pollutant removal via organic polymers, and biodegradable organic polymers Life cycle assessment of organic polymers, applications of organic polymers in agriculture, and future outlooks of the field With complete coverage of organic polymers, a topic of high interest due to their numerous practical applications ranging from membranes to super capacitors, Organic Polymers in Energy-Environmental Applications is an essential resource for polymer and environmental chemists, materials scientists, and all other related researchers and professionals interested in the subject.
S. Georgiou: Laser Cleaning Methodologies of Polymer Substrates; T. Lippert: Laser Application of Polymers; J. Krueger, W. Kautek: Ultrashort Pulse Laser Interactions with Polymers and Dielectrics; Y. Zhang: Synchrotron Radiation Direct Photo-Etching of Polymers.
This series presents critical reviews of the present and future trends in polymer and biopolymer science including chemistry, physical chemistry, physics and materials science. It is addressed to all scientists at universities and in industry who wish to keep abreast of advances in the topics covered. Impact Factor Ranking: Always number one in Polymer Science. More information as well as the electronic version of the whole content available at: www.springerlink.com
1. J.D. Marty, M. Mauzac: Molecular Imprinting: State of the Art and Perspectives.- 2. H. Ito: Chemical Amplification Resists for Microlithography