The role of peroxyl radicals in polyester degradation--a mass spectrometric product and kinetic study using the distonic radical ion approach

Physical Chemistry Chemical Physics : PCCP
B D GervasoniU Wille

Abstract

Mass spectrometric techniques were used to obtain detailed insight into the reactions of peroxyl radicals with model systems of (damaged) polyesters. Using a distonic radical ion approach, it was shown that N-methylpyridinium peroxyl radical cations, Pyr(+)OO˙, do not react with non-activated C-H bonds typically present in polyesters that resist degradation. Structural damage in the polymer, for example small amounts of alkene moieties formed during the manufacturing process, is required to enable reaction with Pyr(+)OO˙, which proceeds with high preference through addition to the π system rather than via allylic hydrogen atom abstraction (kadd/kHAT > 20 for internal alkenes). This is due to the very fast and strongly exothermic subsequent fragmentation of the peroxyl-alkene radical adduct to epoxides and highly reactive Pyr(+)O˙, which both could promote further degradation of the polymer through non-radical and radical pathways. This work provides essential experimental support that the basic autoxidation mechanism is a too simplistic model to rationalize radical mediated degradation of polymers under ambient conditions.

References

Apr 13, 2002·The Journal of Organic Chemistry·Charles H DePuy
Jul 8, 2010·Physical Chemistry Chemical Physics : PCCP·Ulrich Neuenschwander, Ive Hermans
Nov 13, 2010·Organic & Biomolecular Chemistry·Ganna Gryn'ovaMichelle L Coote
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Citations

Dec 3, 2016·Physical Chemistry Chemical Physics : PCCP·Anamika MukhopadhyaySugumar Venkataramani

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