Poly(4-ketovalerolactone) from Levulinic acid: Synthesis and Hydrolytic Degradation.

We report here the synthesis of poly(4-ketovalerolactone) () via ring-opening transesterification polymerization (ROTEP) of the monomer 4-ketovalerolactone (, two steps from levulinic acid). The polymerization of proceeds to high equilibrium monomer conversion (up to 96% in the melt) to give the semicrystalline polyketoester with low dispersity. displays glass transition temperatures of 7 °C and two melting temperatures at 132 and 148 °C. This polyester can be chemically recycled through hydrolytic degradation. Under aqueous neutral or acidic conditions, the dominating pathway for polyester hydrolysis is through backbiting from the chain end. Under basic conditions, mid-chain cleavage, accelerated by the ketone carbonyl group in the backbone, promotes the hydrolysis of nearby backbone ester bonds. The final hydrolysis product is 5-hydroxylevulinic acid, the ring opened hydrolysis product of . was also observed to degrade under the action of a Brønsted acid to a bis-spirocyclic dilactone natural product altaicadispirolactone, which is a dimer of . This constitutes a rare example of a one-step synthesis of a secondary metabolite of non-trivial structure in which a polymer was the starting material and the sole source of matter. Analogous ROTEP of the isomeric 4-membered lactone 4-acetyl-β-propiolactone () was also explored, although this chemistry was not as well-behaved as the to polymerization.