Valorization of bio?calcium carbonate based Chamelea gallina shell waste fillers in shape memory polymer composites
Sunflower oil is used as the only renewable source to successfully synthesize a non?isocyanate polyurethane. The two monomers of the synthesis are obtained by environmentally clean routes, and the polymer film obtained has good elastic properties. Its modification with antibacterial agents such as tea tree oil improves the antibacterial properties but decreases its mechanical performance.AbstractIn this work, non?isocyanate polyurethane (NIPU) films are synthesized from sunflower oil (SFO) with the object of using a renewable resource and establishing a nonpolluting process. SFO also has the advantage of having a higher level of unsaturation than other commercial oils, which provides more reactive sites to be chemically modified. This feature enables a higher degree of conversion to the two monomers, cyclocarbonate, and polyamine?polyol. NIPU is obtained from their mixture and further crosslinking at 90°C allows the films with suitable mechanical properties to be used in biomedical applications. However, NIPU does not show antibacterial activity, so the surface must be modified. Two methods are used: layer?by?layer coating of alginate?chitosan, and immersion in tea tree oil (TTO), previously activating the surface with acrylic acid (AANIPU). Surface modifications are confirmed by increased hydrophilicity, thermochemical changes, and a drop in mechanical performance. TTO on NIPU films inhibits bacterial growth against S. aureus and E. Coli. NIPU and AANIPU can be accepted as noncytotoxic, while incorporation of the two agents can produce cytotoxicity. No previous reports of such modifications have been found on NIPU films, which appear as promising alternatives for biomedical applications.