부산대학교 도서관

Background and Objectives: Based on polymers and inorganic components, hybrid nanostructured materials are used in biomedicine, including tissue engineering and drug delivery with the controlled release. This research aims to develop the method for forming composite coating of vaterite and MNPs on electrospun PCL fibers, which will maintain sensitivity to magnetic fields for a period for the use of magnetotherapy and to control the rate of drug release. Materials and Methods: Three methods of CaCO3 + magnetic nanoparticles coating formation on the surface of policaprolacton fibers were tested. The coating recrystallization time of CaCO3 (transformation from the vaterite polymorph to calcite) on policaprolacton fibers was determined. Results: For samples obtained by CaCO3 and magnetite coprecipitation and US-assisted methods, the time of complete recrystallization is 5 hours, which is less by 2 times than the recrystallization rate of the control sample. Conclusion: The crystallization-induced method is most effective, proved by the recrystallization time of magnetic CaCO3 microparticles on the surface of PCL fibers, which is comparable to the control sample. Obtained by the method of salt co-precipitation with magnetite and US-assisted method, inorganic coatings on PCL fibers have a shorter recrystallization period.