Polymer, Vol.46, No.18, 6998-7017, 2005
Solution and solid-state polymerizations of substituted p-quinodimethanes and p-quinone methides
This article describes the polymerization behavior of electron-accepting and electron-donating p-quinonoid monomers such as substituted p-quinodimethanes and p-quinone methides in Solutions and solid states. In the Solution polymerizations, the electron-accepting substituted p-quinodimethanes and p-quinone methides with same substituents Such as cyano, ester. and sulfonyl groups at the exocyclic positions are not homopolymerizable, but copolymerizable with donor monomers like styrene in all alternating fashion. Their spontaneous polymerizations with donor monomers have been explained with the bond-forming initiation mechanism. The Substituted p-quinodimethanes with ester groups are a first example to show an amphoteric behavior in alternating copolymerizations. Some electron-accepting substituted p-quinodimethanes and p-quinone methides with different substituents such as cyano, ester, acyl. alkylthio, and/or phenyl groups are homopolymerizable, and an anionic polymerization initiated with a butyllithium initiator proceeded in a living manner. Equilibrium polymerization behavior have been found in their radical homopolymerizations. and oil the basis of the thermodynamic parameters determined for their polymerizations, it has been concluded that homopolymerizabilities of the electron-accepting substituted, p-quinodimethanes and p-quinone methides are determined exclusively by a steric hindrance effect arising front the substituents at the exocyclic positions. A new concept for the radical alternating copolymerization have been proposed oil the basis of the change in modes (random and alternating copolymerizations) for their copolymerizations with styrene and the cross-propagation step analysis by linear free energy relationship. The polymerizations of the electron-donating substituted p-quinodimethanes take place only in the presence of oxygen molecules. In the solid-state polymerizations, some electron-accepting Substituted p-quinodimethanes with same ester substituents polymerized topochemically in vacuo. and the strict requirements of topochemical polymerization for substituted p-quinodimethane and p-quinone methide monomers have been determined oil the basis of their crystallographic data. Topochemical alternating copolymerization with molecular oxygen in solid state was discovered for the first time. (c) 2005 Elsevier Ltd. All rights reserved.