Ring-opening polymerization of ω-6-hexadecenlactone by a salicylaldiminato aluminum complex: a route to semicrystalline and functional poly(ester)s

The controlled and pseudo-living ring-opening polymerization of a large ring size lactone, omega-6-hexadecenlactone (6HDL), was achieved for the first time by a dimethyl(salicylaldiminato) aluminum initiator. The obtained poly(omega-6-hexadecenlactone) was functionalized by thiol-ene coupling reaction. By epoxidation of the double bond a poly(6,7-epoxy-omega-hexadecalactone) was formed. The subsequent opening of the epoxide by NaCNBH3 produced a poly(6,7-epoxy-omega-hexadecalactone) with occasional inter and intra ether-type crosslinks. Modifications occurred without any change in the degree of polymerization. The obtained polymeric samples were characterized by NMR, GPC and DSC and X-ray diffraction analysis. The "polyethylene-like" orthorhombic crystal lattice of poly(omega-6-hexadecenlactone) is deformed in the poly(6,7-epoxy-omega-hexadecalactone) and is replaced by a hexagonal packing when the poly(ester) chains are hydroxylated. Furthermore, copolymerization of 6HDL with smaller epsilon-caprolactone produced random copolymers, with average sequence block lengths of 2, while the sequential addition of 6HDL and epsilon-caprolactone or rac-lactide allowed the preparation of block-copolymers. The block and random copolymers were also semicrystalline.