Macromolecules, Vol.31, No.8, 2480-2487, 1998
Living coupling reaction in living cationic polymerization. 2. Synthesis and characterization of amphiphilic A(2)B(2) star-block copolymer : Poly[bis(isobutylene)-star-bis(methyl vinyl ether)]
Amphiphilic A(2)B(2) star-block copolymers (A = polyisobutylene (PIB) and B = poly(methyl vinyl ether) (PMeVE)) have been prepared via the living coupling reaction of living PIE, using 2,2-bis[4-(1-tolylethenyl)phenyl]propane (BDTEP) as a living coupling agent, followed by the chain ramification reaction of methyl vinyl ether (MeVE) at the junction of the living coupled PIE. Model reactions for the synthesis of A(2)B(2) star-block copolymers indicated that the fine-tuning of Lewis acidity to the reactivity of MOVE is a crucial step for the structural integrity of the resulting A(2)B(2) star-block copolymers. Side products were negligible using a [Ti(OEt)(4)]/[TiCl4] ratio of 0.7 and the minimum tuning time (similar to 5 min). Fractionation of the crude A(2)B(2) star-block copolymer was carried out on a silica gel column, and on the basis of the weights of fractions, the purity of the crude A(2)B(2) star-block copolymer was calculated to be greater than or equal to 93.5%. Two T(g)s (-60 degrees C for PIB and -20 degrees C for PMeVE) were observed for the star-block copolymer by DSC indicating the presence of two microphases. An A(2)B(2) star-block copolymer with 80 wt % PMeVE composition ((IB45)(2)-s-(MeVE170)(2)) exhibited a critical micelle concentration (cmc) of 4.25 x 10(-4) M in water, which is an order of magnitude higher than cmcs obtained with linear diblock copolymers with same total M-n, and composition (IB90-b-MeVE340) or with same segmental lengths (IB45-b-MeVE170) This suggests that block copolymers with star architectures exhibit less tendency to micellization than their corresponding linear diblock copolymers. Average particle sizes in aqueous solution above the cmc were measured to be from 41 to 177 nm, depending on the architecture and/or the molecular weight.
Keywords:SILYL ENOL ETHER;CARBOCATIONIC POLYMERIZATION;ALPHA-METHYLSTYRENE;ISOBUTYLENE;POLYMERS;AGENTS