Titlebook: Anionic Polymerization; Principles, Practice Nikos Hadjichristidis,Akira Hirao Book 2015 Springer Japan 2015 Anionic Polymerization.Block C

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Kiyohiko G. Nishimura,Hiroyuki Ozakiesearchers and their unique self-assembly behavior has been studied in detail. Due to the rigidity/crystallinity of polythiophene segments in addition to the heterophase structure, the self-assembly behavior of such BCPs becomes rather more complicated than that of conventional coil-based BCPs. Neve

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Book 2015be the only truly living polymerization system (100 % termination free under appropriate conditions) and consequently the only one with unique capabilities in the synthesis of well-defined (i.e., precisely controlled molecular weight, nearly mono-disperse molecular weight distribution, structural an

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Economics and policies in forestry,cromolecular architectures. Ring-opening polymerization of cyclic monomers utilizing alkali metal derivatives or other initiating systems in conjunction or not with activating systems is described. Emphasis is also put on the use of organic initiators or catalysts to trigger the metal-free ring-opening polymerization.

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Cyclic Monomers: Epoxides, Lactide, Lactones, Lactams, Cyclic Silicon-Containing Monomers, Cyclic Cacromolecular architectures. Ring-opening polymerization of cyclic monomers utilizing alkali metal derivatives or other initiating systems in conjunction or not with activating systems is described. Emphasis is also put on the use of organic initiators or catalysts to trigger the metal-free ring-opening polymerization.

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Surface-Initiated Anionic Polymerization from Nanomaterials properties of nanomaterials strongly depend on their compatibility with organic phases either in bulk or in solution. This chapter focuses on surface grafting of polymers using living anionic polymerization from various nanomaterials and provides accounts on the developments in this area.

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