ANIONIC RING-OPENING ALTERNATING COPOLYMERIZATION OF A BICYCLIC BIS(GAMMA-LACTONE) WITH AN EPOXIDE - A NOVEL RING-OPENING POLYMERIZATION OFA MONOMER CONTAINING A GAMMA-LACTONE STRUCTURE

Anionic ring-opening polymerization of a bicyclic bis(gamma-lactone) ( 1b) was carried out under anionic conditions. 1b had no homopolymeriza bility but copolymerized with epoxide 2 to selectively give the corres ponding alternating copolymer. IR, H-1 NMR, and C-13 NMR spectra and p roducts of the alkaline hydrolysis of the obtained polymer strongly su ggested an alternating copolymer structure consisting of two successiv e units derived from 1 band 2. The unit from 1b was a linear diester, probably formed by a successive double ring-opening polymerization wit h isomerization. The 1:1 copolymer composition was not changed by vary ing the monomer feed ratio in the range between 20:80 and 80:20. From the results of the model reaction of an equimolar mixture of 1b and 2 with 0.6 equiv of sodium methoxide in THF, the initiation of this copo lymerization was suggested to involve a nucleophilic attack of the ini tiator alkoxide at the carbonyl carbon of the gamma-lactone ring of 1b to form a carboxylate via a double ring-opening isomerization. The pr opagation mechanism was studied by the results of the model reaction a s well as the formation of the alternating copolymer. It was found tha t the propagation consisted only of cross-propagation; that is, the re sulting carboxylate end derived from 1b reacts only with 2, whereas th e alkoxide end derived from 2 undergoes selective nucleophilic attack at 1b. The carboxylate end attack at 2 was suggested as the rate-deter mining step from the time-conversion curves. The rate of the copolymer ization and the molecular weight and molecular weight distribution of the copolymer were strongly affected by solvent and counterion. The ra te and the molecular weight distribution increased in the order of the counterions Na+ < K+ < Cs+ and also increased with increasing solvent polarity.