Copolymerization and Cycloaddition Products Derived from Coupling Reactions of 1,2-Epoxy-4-cyclohexene and Carbon Dioxide. Postpolymerization Functionalization via Thiol-Ene Click Reactions

摘要

The coupling reaction of 1,2-epoxy-4-cyclohexene with CO_2 in the presence of a ZnCl_2Bu_4NI catalyst system was shown to provide the naturally occurring ciscyclohexadiene carbonate. An alternative synthesis of this compound, which was characterized by X-ray structural analysis, was carried out from the cis-diol and triphosgene. Upon utilizing binary or bifunctional (salen)CrX catalysts, this coupling process resulted in the selective formation of completely alternating copolymer of 1,2-epoxy-4-cyclohexene and carbon dioxide. In the case involving the binary chromium(III)/onium salt catalyst, small quantities of both the cis and trans cyclic carbonates were also produced. The (salen)CoDNP/PPNDNP (DNP = 2,4-dinitrophenolate) catalyst system was most effective at producing high molecular weight copolymer with 100% selectivity. The T_g of this polymer (M_n = 35.9 kDa) was determined to be 123 °C, which is higher than the T_g (116 °C) of the corresponding saturated copolymer. Depolymerization of poly(cyclohexadiene carbonate) to trans-cyclohexadiene carbonate occurred slowly and cleanly at 110 °C following deprotonation of the terminal hydroxyl group. The trans-cyclohexadiene carbonate was independently synthesized via the carbonylation of the trans-diol with ethyl chloroformate. The hydrophobic 1,2-epoxy-4-cyclohexene/CO_2 derived copolymer was modified by the quantitative addition of thioglycolic acid by way of the thiol-ene click reaction to afford an amphiphilic copolymer. Upon deprotonation of this functionalized polycarbonate with ammonium hydroxide, the production of a water-soluble polymeric material was achieved which displayed a T_g of 120 °C.