Investigation of the effect of reaction conditions on the synthesis of multiarm-star polyisobutylene-polystyrene block copolymers |
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Authors: | Yongmoon Kwon |
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Affiliation: | Department of Chemical and Biochemical Engineering, Macromolecular Engineering Research Centre MERC, The University of Western Ontario, London, Ont., Canada N6A 5B9 |
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Abstract: | New multi-arm star block copolymers comprising of rubbery polyisobutylene (PIB) midsegment and glassy polystyrene (PS) end blocks have been synthesized by carbocationic polymerization using a new multifunctional initiator, hexaepoxy squalene (HES), with TiCl4 coinitiator, di-t-butylpyridine (DtBP) as a proton trap and N,N-dimethylacetamide (DMA) as an electron pair donor in methylcyclohexane (MeCHx)/methyl chloride (MeCl) solvent mixtures at −80 °C. It was found that reaction conditions, such as solvent composition, HES/isobutylene (IB) ratio and TiCl4 concentration, have profound influence on initiator efficiency and functionality. Living conditions were achieved in the presence of DMA in MeCHx/MeCl 60/40 v/v, while in the absence of DMA, the Mn-conversion plot showed a considerable intercept. Depending on the reaction conditions, the PIB midblocks had 3-10 arms. Reaction rates increased with increasing solvent polarity and TiCl4 concentration. Living narrow molecular weight distribution PIBs (Mw/Mn=1.1-1.2) were reacted with styrene (St) solution containing DtBP and DMA to yield multiarm-star PIB-PS block copolymers. Blocking was evidenced by SEC analysis and copolymers with 8.9-28.6 wt.% PS, Mn∼164,000-609,000 g/mol and Mw/Mn=1.32-1.88 were successfully synthesized. |
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Keywords: | Living carbocationic polymerization Star-branched polyisobutylene-polystyrene block copolymers Effect of reaction conditions |
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