Journal of Polymer Science Part A: Polymer Chemistry, Vol.50, No.21, 4494-4506, 2012
Synthesis and clustering of supramolecular "graft" polymers
The synthesis and melt rheology of supramolecular poly(isobutylene) polymers bearing statistically distributed hydrogen-bonding moieties is reported, aiming at understanding the formation of the underlying supramolecular networks for self-healing polymers. Two different hydrogen bonds were incorporated into a poly(isobutylene) (PIB) copolymer, one based on a (weak) pyridinium/pyridine interaction, the other based on a (stronger) 2,6-diaminotriazine/thymine interaction. A direct copolymerization based on living cationic polymerization of isobutene and the comonomers 1, 2, and 4 in amounts of 1 mol % lead to the copolymers PIB-1, PIB-2, and PIB-4 with a content of 1 mol % of comonomer and molecular weights ranging from 2000 to 19,000 gmol-1 (Mw/Mn 1.21.5). Subsequent azide/alkyne click chemistry enabled the attachment of 2,6-diaminotriazine- and thymine-moieties to yield the copolymers PIB-5, PIB-6, and PIB-7. Proof of the statistical incorporation of 1 mol % of hydrogen-bonding moieties was achieved by 1H NMR spectroscopy and matrix-assisted laser desorption ionization measurements. The true presence of a supramolecular network in PIB-1 (pyridinium/pyridine interaction) as well as with 1/1 blends of PIBs interacting via the 2,6-diaminotriazine/thymine interaction (PIB-5/PIB-6) was proven via the increasing plateau modulus with increasing molecular weights (5.5k, 9.9k, 12.4k, 16k, and 19k). Dynamics of the hydrogen bonds in the melt state was investigated by determining the effective cluster lifetime (t?b*) observing a clear difference in the (weaker) pyridinium/pyridine interaction (t?b* 1 s) to the 2,6- (stronger) diamintriazine/thymine interaction (t?b* 100 s). The so-generated materials will be useful as a basis for self-healing polymers, as dynamics plays a major role in such polymers. (c) 2012 Wiley Periodicals, Inc. J Polym Sci Part A: Polym Chem, 2012
Keywords:azide;alkyne "click" chemistry;copolymerization;dissociation-dynamics;graft copolymers;hydrogen bonds;living cationic polymerization;poly(isobutylene);rheology;self-assembly;self-healing polymers;supramolecular polymer