The preparation technique for multifunctional metal-polymer composites based on the commercial medical sponge Collachit-G with antiseptic, anesthetic and bactericidal properties has been developed. The immobilization of ibuprofen and silver nanoparticles on/into polymer was achieved by using combination of two green technologies: the treatment in supercritical carbon dioxide and metal vapor synthesis. The composites were investigated by XRFA, TEM and XPS. A drug- release process and its mechanism have been studied within the framework of the Ritger-Peppas model. It was found that ibuprofen content in the sponge reaches 51 % from its weight. The average linear size of silver particles is 6 ± 1nm, and silver atoms are in non-oxidized state. Duration of ibuprofen escape from initial sponge in the phosphate buffer with pH =7.4 is 3 hours. Diffusion obeys to Fick’s law. The presence of Ag clusters in the sponge does not principally change the diffusion mechanism.

Topics
Nanoparticle, Transition metals, Diffusion, Polymers, Phosphates, Chemical compounds, Antimicrobials, Anesthesia
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