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    Hybrid nanocomposite coatings from PEDOT and BN-TiO2 nanosheets: Enhanced invitro corrosion resistance, wettability and biocompatibility for biomedical applications

    Year: 2022

    Journal: Prog. Org. Coat., Volume 170, SEP

    Authors: Kumar, A. Madhan; Khan, Abuzar; Hussein, M. A.; Khan, Mohd Yusuf; Dafalla, Hatim; Suresh, Bharathi; Ramakrishna, Suresh

    Organizations: National Research Foundation of Korea (NRF) [2021M3A9H3015389, 2021R1I1A1A01052637]; Korean Fund for Regenerative Medicine (KFRM) - Korea government (the Ministry of Science and ICT, Ministry of Health and Welfare) [22A0304L1-01]

    Keywords: 316L SS; PEDOT coatings; BN nanosheets; Corrosion; Biocompatibility

    The aim of this study is to develop the polymer nanocomposite coatings based on conducting polymer and hexagonal boron nitride (BN) nanosheets to improve invitro corrosion resistance and biocompatibility of 316L stainless steel (SS) implants. To achieve the highly dispersible BN, the surface of BN was decorated with TiO2 nanoparticles (similar to 25 nm) and then, the resultant BN-TiO2 nanosheets was incorporated into poly (3,4-ethylene dioxythiophene) (PEDOT) coatings. Surface and structural characterization results validated the formation of nanocomposite coatings with homogeneous distribution of BN-TiO2 as well the existing interaction between the BN-TiO2 and PEDOT matrix. Invitro corrosion analysis of coated 316L SS specimens in simulated body fluid corroborated that the value of corrosion current density (0.0248 mu A/cm(2)) was two orders of magnitude with a lower corrosion rate of 1.4694 x 10(-3) mmpy for PEDOT/BN-TiO2 nanocomposite coatings compared with the pure PEDOT. Uncoated 316L SS specimen showed water contact angle (WCA) value of 84.50 degrees, whereas PEDOT/BN-TiO2 coatings displayed WCA value of about 20 degrees, further inferring the positive role of BN-TiO2 in the PEDOT matrix. Invitro cell culture analysis on MG63 cells validated the enhanced biocompatibility of developed nanocomposite coatings. Among the studied samples, the PEDOT/10BN-TiO2 nanocomposite coatings demonstrated enhanced wettability, invitro corrosion resistance, and ability to facilitate osteoblast adhesion. The obtained results suggest that the developed nanocomposite coatings on 316L SS implants have the potential for use in orthopedic applications.
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