Poly(omega-pentadecalactone-co-butylene-co-succinate)copolymers with various Compositions were synthesized via copolymerization of dialkyl succinate with 1,4-butandiol and omega-pentadecalactone (PDL) catalyzed by immobilized Candida antarctica lipase B. The monomer unit ratio in the copolymers can be carefully controlled by adjusting monomer feed ratio. NMR spectroscopy shows that the copolymers have nearly random distribution of PDL, butylene, and succinate repeat units, linked by ester group; along the macromolecule. Thermal stability of poly(PDL-co-butylene-co-succinate)s is composition-dependent and increases with increasing PDL unit content. All copolymers are highly crystalline irrespective of their composition, and they show isodimorphic behavior, with the crystal lattices of poly(omega-pentadecalactone) and of poly(butylene succinate) being capable of hosting foreign comonomer units Lip to a given extent. The two types of crystals are stable in different composition ranges. The T-m/composition dependence shows a minimum at 35 mol % PDL (pseudoeutectic composition), where PBS-type and PPDL-type crystals coexist. Cocrystallization with high extent of comonomer inclusion is supported by application of the Wendling-Suter model to the experimental T-m values. Nanoparticles prepared from these copolymers maintain a high crystallinity degree associated with isodimorphic behavior.