[PDF] The Morphological Behavior Of Miktoarm Star And Multiple Graft Block Copolymers eBook

Author : Gunther Molau
Publisher : Springer Science & Business Media
Page : 326 pages
File Size : 15,50 MB
Release : 2012-12-06
Category : Technology & Engineering
ISBN : 1468419080

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The molecules of block and graft copolymers are molecules of a higher order; they consist of homopolymer subchains which are interconnected by chemical valence bonds. This structural com plexity is manifested in the unusual behavior of block and graft copolymers both in solution and in bulk. Many types of interac tions are possible in block and graft copolymers in the solid state. Polymer subchains of one molecule can interact with other polymer subchains which may belong to the same molecule or to different molecules. Since polymer chains of chemically different composition are usually incompatible, thermodynamically unfavorable as well as thermodynamically favorable interactions exist in the solid state. In solutions of block and graft copolymers, the sit uation becomes even more complex, because interactions between the solvent molecules and the various subchains of the copolymer mole cules occur in addition to the interactions between the polymer chains. This multitude of interactions gives rise to a wide spec trum of colloidal and morphological properties which have no paral lel in less complex polymer systems such as homopolymers or random copolymers. Research on the colloidal and morphological behavior of block and graft copolymers is a relatively new field of endeavor. It started in 1954, when F. M. Merrett fractionated mixtures of grafted na tural rubber with the corresponding homopolymers and observed that colloidal sols were formed at certain points during his fractional precipitations.

Author : Gunther Molau
Publisher : Springer
Page : 328 pages
File Size : 41,88 MB
Release : 1971-04-01
Category : Technology & Engineering
ISBN : 9780306305276

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The molecules of block and graft copolymers are molecules of a higher order; they consist of homopolymer subchains which are interconnected by chemical valence bonds. This structural com plexity is manifested in the unusual behavior of block and graft copolymers both in solution and in bulk. Many types of interac tions are possible in block and graft copolymers in the solid state. Polymer subchains of one molecule can interact with other polymer subchains which may belong to the same molecule or to different molecules. Since polymer chains of chemically different composition are usually incompatible, thermodynamically unfavorable as well as thermodynamically favorable interactions exist in the solid state. In solutions of block and graft copolymers, the sit uation becomes even more complex, because interactions between the solvent molecules and the various subchains of the copolymer mole cules occur in addition to the interactions between the polymer chains. This multitude of interactions gives rise to a wide spec trum of colloidal and morphological properties which have no paral lel in less complex polymer systems such as homopolymers or random copolymers. Research on the colloidal and morphological behavior of block and graft copolymers is a relatively new field of endeavor. It started in 1954, when F. M. Merrett fractionated mixtures of grafted na tural rubber with the corresponding homopolymers and observed that colloidal sols were formed at certain points during his fractional precipitations.

Author : Ashok Kakkar
Publisher : Royal Society of Chemistry
Page : 241 pages
File Size : 40,85 MB
Release : 2017-04-13
Category : Technology & Engineering
ISBN : 1788010426

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The term ‘miktoarm polymers’ refers to asymmetric branched macromolecules, a relatively new entry to the macromolecular field. Recent advances in their synthesis and intriguing supramolecular chemistry in a desired medium has seen a fast expansion of their applications. The composition of miktoarm polymers can be tailored and even pre-defined to allow a desired combination of functions, meaning polymer chemists can have complete control of the overall architecture of these macromolecules. By carefully selecting the composition, they can create supramolecular structures with intriguing properties, particularly for applications in biology. Miktoarm Star Polymers features chapters from experts actively working in this field, and provides the reader with a unique introduction to the fundamental principles of this exciting macromolecular system. Topics covered include the design, synthesis, characterization, self-assembly and applications of miktoarm polymers. The book is an excellent overview and up to date guide to those working in research in polymer chemistry, materials science, and polymers for medical applications.

Author : Rohit Gupta
Publisher :
Page : pages
File Size : 41,96 MB
Release : 2018
Category :
ISBN :

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Multiblock copolymers have gained considerable attention due to their ability to offer immense potential for designing soft materials with complex architectures for diverse applications. The enlarged parameter space offered by these multiblock copolymers gives access to a wide variety of multiply continuous morphologies which can be used to produce highly ordered nanostructures. The investigation on multiblock copolymers has been subjected to two critical limitations: (i) A suitable synthetic strategy for accessing these structures and (ii) computational tools which can help in application driven design of these molecules. In this dissertation, the goal was to develop methodologies for the synthesis of multiblock copolymers with different architectures and understand how the variations in molecular architecture can influence macromolecular self-assembly. In chapter 2, the concept of single molecule insertion (SMI) for precise insertion of functional molecules is presented. The molecule precisely inserts once within the polymer chain with high chain fidelity and provides functionalities for post-insertion modifications. A series of molecules satisfying the criteria for SMI based on their reactivity ratios with styrene and methyl methacrylate were examined and used to synthesize a series of multiblock polymers with complex architectures. In chapter 3, a highly efficient synthetic methodology for synthesis of graft copolymers which lie along the continuum of a 3-arm star and A-B-C linear triblock copolymer has been described. The morphological characterization of the synthesized continuum graft copolymers is performed using SAXS, TEM, and DPD simulations. Interesting morphologies are observed for these continuum copolymers and projects them as interesting candidates to access new morphologies. Contrary to most of the work done on block copolymers, these structures are novel as their morphologies can be tuned keeping the [phi] and [chi] constant. This study helps in understanding of the effect of polymer architecture on the phase behavior of these graft copolymers and provides a novel pathway to tune the block copolymer morphologies. In chapter 4, a series of PMMA-b-PtBS-b-P2VP and PtBA-b-PtBS-b-P2VP triblock copolymers with extending P2VP arm has been synthesized. The study helps in extending the concept of high [chi]-low N block copolymer system from diblock to triblock copolymers. The morphologies of the synthesized triblock copolymers were characterized using SAXS and TEM and morphologies with multiple domains and smaller feature size were observed. Also, the effect of extending chain length of P2VP arm on the phase diagram on these highly frustrated triblock copolymer systems was studied and the observed morphologies using SAXS and TEM were mapped with the theoretical predictions.

Author : M.J. Folkes
Publisher : Springer Science & Business Media
Page : 219 pages
File Size : 25,48 MB
Release : 2012-12-06
Category : Technology & Engineering
ISBN : 9400949367

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Block copolymers represent an important class of multi-phase material, which have received very widespread attention, particularly since their successful commercial development in the mid-1960s. Much of the interest in these polymers has arisen because of their rather remarkable micro phase morphology and, hence, they have been the subject of extensive microstructural examination. In many respects, the quest for a comprehensive interpretation of their structure, both theoretically and experimentally, has not been generally matched by a corresponding enthusiasm for developing structure/property relationships in the context of their commercial application. Indeed, it has been left largely to the industrial companies involved in the development and utilization of these materials to fulfil this latter role. While it is generally disappointing that a much greater synergism does not exist between science and technology, it is especially sad in the case of block copolymers. Thus these materials offer an almost unique opportunity for the application of fundamental structural and property data to the interpretation of the properties of generally processed artefacts. Accordingly, in this book, the editor has drawn together an eminent group of research workers, with the specific intention of highlighting some of those aspects of the science and technology of block copolymers that are potentially important if further advances are to be made either in material formulation or utilization. For example, special consideration is given to the relationship between the flow properties of block copo lymers and their microstructure.