Semiaromatic Polyester-Ethers with Tunable Degradation Profiles

Poly(epsilon-caprolactone) (PCL) is a widely utilized polymer within the biomedical field; however, one of its limitations is the multi-year long degradation profile. Herein, we report a semiaromatic polyester-ether (SAEE) PCL copolymer using a salicylic acid-based monomer which can disrupt the semicrystalline nature of the bulk material. The molar percentage of incorporation correlated to a linear decrease in melting and crystallization temperature, until a totally amorphous solid was seen at 37 mol %. Alongside this, mechanical analysis elucidated a softer, more extensible material with E ' decreasing from 292 to 222 to 43.8 MPa for PCL to 10 to 22 mol % SAEE, respectively. Accelerated basic degradation studies (2 M NaOH) exhibited total mass loss after 16 weeks for 6 mol % compared to only 38% mass loss for PCL over the same period. Overall, by varying the SAEE mol %, we show the ability to finely tune the thermal, mechanical, and degradation profiles of PCL copolymers while maintaining an advantageous biological profile.