Synthesis and cross-linking of polyisoprene latexes

In Woo Cheong, Christopher M. Fellows, Robert G. Gilbert

Research output: Contribution to journalArticlepeer-review

25 Scopus citations

Abstract

Seeded and ab initio emulsion polymerizations of isoprene using redox initiation systems were investigated and suitable reaction conditions determined to prepare polyisoprene latexes with minimal cross-linking. Polymerizations initiated with the potassium persulfate/sodium bisulfite (KPS/SBS) redox couple had a significant inhibition period and low yield. Polymerizations initiated with the tert-butyl hydroperoxide/tetraethylene- pentamine redox couple showed reasonable yields and no apparent inhibition. It is postulated that the lipophilic nature of the t-butyl group plays a favorable role in the entry of hydroperoxide-initiated oligomeric radicals, while persulfate-initiated radicals are more likely to undergo aqueous phase termination before entry. The cross-linking reaction by benzoyl peroxide (BPO) at 70°C was investigated using this lightly cross-linked polyisoprene latex. 1H NMR and gel permeation chromatography results were consistent with a reaction mechanism in which the radicals formed by the decomposition of BPO react exclusively with polyisoprene to abstract a hydrogen atom, and the resulting radicals react by termination to form cross-links. No loss of double bonds was found, suggesting that radical formation is overwhelmingly achieved by hydrogen abstraction and cross-linking occurs by termination between two radicals. Cross-linking was accompanied by chain scission, which was observed only at the beginning of the reaction. At low weight-fractions of polymer, the rate of cross-linking was dependent on the concentrations of BPO and abstractable hydrogens in a manner consistent with the postulated mechanism.

Original languageEnglish
Pages (from-to)769-781
Number of pages13
JournalPolymer
Volume45
Issue number3
DOIs
StatePublished - Feb 2004

Keywords

  • Polymer chemistry
  • Polymer materials
  • Polymer synthesis

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