Singlet Oxygen as a Reactive Intermediate in the Photodegradation of an Electroluminescent Polymer

Abstract

Singlet molecular oxygen (a1Δg) is shown to be a reactive intermediate in the photoinduced oxidative decomposition of the electroluminescent material poly(2,5-bis(5,6-dihydrocholestanoxy)-1,4-phenylenevinylene) [BCHA-PPV] in both liquid solutions and solid films. Upon irradiation of this polymer in CS2, singlet oxygen is produced by energy transfer from the BCHA-PPV triplet state to ground state oxygen with a quantum yield of ~0.025. Singlet oxygen reacts with BCHA-PPV, resulting in extensive chain scission of the macromolecule. The reaction with singlet oxygen is unique to the polymer; the monomeric analog of this system, stilbene, does not appreciably react with singlet oxygen. Polymer degradation is proposed to proceed via addition of singlet oxygen in a π2 + π2 cycloaddition reaction to the double bond that connects phenylene groups in the macromolecule. © 1995, American Chemical Society. All rights reserved.