Controlled Polymerization and Polymeric Structures: Flow by Aiichiro Nagaki, Jun-ichi Yoshida (auth.), Akihiro Abe,

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By Aiichiro Nagaki, Jun-ichi Yoshida (auth.), Akihiro Abe, Kwang-Sup Lee, L. Leibler, Shiro Kobayashi (eds.)

Advances in Polymer technology enjoys a longstanding culture and stable acceptance in its neighborhood. every one quantity is devoted to a present subject, and every evaluation seriously surveys one element of that subject, to put it in the context of the amount. The volumes usually summarize the numerous advancements of the final five to ten years and speak about them seriously, offering chosen examples, explaining and illustrating the real ideas, and bringing jointly many very important references of fundamental literature. On that foundation, destiny learn instructions within the region could be mentioned. Advances in Polymer technological know-how volumes hence are very important references for each polymer scientist, in addition to for different scientists attracted to polymer technology - as an advent to a neighboring box, or as a compilation of distinctive details for the specialist.

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Extra resources for Controlled Polymerization and Polymeric Structures: Flow Microreactor Polymerization, Micelles Kinetics, Polypeptide Ordering, Light Emitting Nanostructures

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Chem Rev 101:2921–2990 183. Ouchi M, Terashima T, Sawamoto M (2008) Precision control of radical polymerization via transition metal catalysis: from dormant species to designed catalysts for precision functional polymers. Acc Chem Res 41:1120–1132 184. Kamigaito M, Ando T, Sawamoto M (2001) Metal-catalyzed living radical polymerization. Chem Rev 101:3689–3746 185. Wang J, Matyjaszewski K (1995) Controlled/“living” radical polymerization. Halogen atom transfer radical polymerization promoted by a Cu(I)/Cu(II) redox process.

NMP of styrene and n-butyl acrylate at 140 C has been performed in a continuous-flow microtubular reactor (Fig. 27) consisting of a stainless steel tube reactor and a back-pressure cartridge [212]. In the case of styrene polymerization, there is no difference between batch reactors and flow microreactors. 44 for the flow microreactor). Moreover, consumption of the monomer is much faster using the flow microreactor (Fig. 28). NMP of styrene in a miniemulsion can be also performed in a tubular reactor [213].

Geyer K, Codee JDC, Seeberger PH (2006) Microreactors as tools for synthetic chemists-the chemists’ round-bottomed flask of the 21st century? Chem Eur J 12:8434–8442 11. Whitesides G (2006) The origins and the future of microfluidics. Nature 442:368–373 40 A. -i. Yoshida 12. deMello AJ (2006) Control and detection of chemical reactions in microfluidic systems. Nature 442:394–402 13. Song H, Chen DL, Ismagilov RF (2006) Reactions in droplets in microfluidic channels. Angew Chem Int Ed 45:7336–7356 14.

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