Govindasamy, G Ambarasan, Sreekantan, Srimala, Saharudin, Khairul Arifah, Poliah, Ramarao, Ong, Ming Thong, Thavamany, Priscilla Jayanthi, Sahgal, Geethaa, and Tan, Aik Aun
Polymer-based appliances are vulnerable to bacterial infections and pose a significant concern in biomedical field. Potential sources of infections have been found to be two categories of strain, namely Staphylococcus aureus(S. aureus) and Escherichia coli(E. coli), necessitating a comprehensive exploration of innovative materials and strategies to mitigate this issue. Accordingly, this work targeted to determine the effect of 1% and 7% Cu-TiO2on the antibacterial activity of PP composite against S. aureusand E. coli. In this work, oval-shaped Cu-TiO2were fabricated by a hydrothermal method and then incorporated into the PP by internal mixing. Subsequently, XRD, TEM, FESEM, and EDS were used to characterize the Cu-TiO2-PP composite. The structural properties of PP composite were greatly altered with dispersion of Cu-TiO2. Antibacterial tests demonstrated that the bactericidal efficiency of Cu-TiO2-PP composite on microorganisms greatly improved with metal-ionic systems compared with pure PP. This work throws some new insight in addressing catheter-related blood-stream infection.