| 533. Novoa-Carballal, R.; Nosov, S.; Pfaff, S.; Schmalz, H.; Müller, A.H.E.: Hyperbranched and Hyperstar Polybutadienes via Anionic Self-Condensing Vinyl Copolymerization, Macromolecules 54, 5774 (2021) -- DOI: 10.1021/acs.macromol.1c00537 | |
| Abstract: We synthesized highly branched polybutadienes by anionic self-condensing vinyl copolymerization (ASCVCP) of a butyllithium/divinylbenzene (DVB)-based initiator monomer (inimer) and butadiene. The molecular structure of polybutadienes was evaluated by SEC with MALLS and viscosity detection. SEC/viscosity measurements confirmed the branched structure of the obtained polymers. Examination of polymerization of two isomers of divinylbenzene, i.e., para- and meta-DVB, revealed differences in the mechanism. MALDI-ToF mass spectrometric analysis in the case of p-divinylbenzene indicates macroinimer formation as the first step, followed by condensation of the macroinimers into a highly branched polymer with narrowly distributed polybutadiene segments. The living nature of the polymerization allowed further amino-functionalization of the hyperbranched polybutadienes or subsequent growth of (meth)acrylate arms leading to hyperstar molecules. The reactivity of the primary amino groups in the amino-functionalized copolymers was used in the grafting-onto reaction, i.e., amide formation with ω-carboxy-poly(N-isopropylacrylamide), leading to another type of hyperstar. To the best of our knowledge, these are the first examples of hyperstars with a polybutadiene copolymer core described to date. |
Prof. Dr. Axel Müller
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