• Title of article

    The Corrosion Control of Temporary Magnesium (AZ31 alloy) Implants Using Electrospinning Polycaprolactone-curcumin Nanofiber Coatings

  • Author/Authors

    Dabirian, Saba Faculty of Chemistry - Razi University - Kermanshah, Iran , Kashanian, Soheila Faculty of Chemistry - Razi University - Kermanshah, Iran , Nazari, Maryam Faculty of Chemistry - Razi University - Kermanshah, Iran , Arkan, Elham Faculty of Pharmacy - Kermanshah University of Medical Sciences - Kermanshah, Iran

  • Pages
    10
  • From page
    191
  • To page
    200
  • Abstract
    In this article, polycaprolactone (PCL) polymer nanofibers have been used in the presence of curcumin (Cur) to control the corrosion rate of temporary magnesium (alloy AZ31) implants. PCL, PCL-Cur, and sodium alginate (SA)-polyvinyl alcohol (PVA)/PCL-Cur polymers coating were produced. The mentioned nanofibers were produced using a simple and cost-effective electrospinning technique. We used different techniques to examine the properties of the produced fibers, and it was demonstrated that the hydrophobic produced nanofibers with a contact angle of 135.2 degrees have continuous strands and a diameter of 171.57 nm. The presence of Cur inside PCL nanofiber not only did not have any effect on the PCL nanofiber morphology, but also increased adhesion of the coating, and 74.59% of Cur was released after 7 days. To investigate the effects of different polymeric coatings on the surface of Mg metal in the simulated body fluid (SBF), SEM, weight measurement tests, pH measurement, Polarization, and Electrochemical Impedance Spectroscopy (EIS) has been used. During the study period, there was no degradation in any part of the PCL-Cur hydrophobic polymer coating. For this coating, the percentage of weight loss, pH value, corrosion potential (Ecorr), and corrosion rate (CR) were 0.19%, 8.39, -1.388 V, and 0.198 mm/y, respectively, where these values indicate the significant decrease in corrosion rate while using PCL-Cur coating.
  • Keywords
    Corrosion , Electrospinning , Implants , Magnesium AZ31 alloy , Polymer coatings
  • Journal title
    Analytical and Bioanalytical Chemistry Research
  • Serial Year
    2022
  • Record number

    2731395