Abstract

To improve the bioactivity and antibacterial properties of implant materials. In this study, the biomedical titanium alloy (Ti-6Al-4V) was covered by yttrium doped titanium dioxide (Y-TiO2) coating via a plasma electrolytic oxidation (PEO) method. By changing the concentration of yttrium acetate in the electrolyte, Y-TiO2 coating with different mass ratios of yttrium were obtained. The structure morphology and chemical composition of the Y-TiO2 coating were systematically characterized. The results indicated that the porous and micro-nanostructured Y-TiO2 coatings were constructed by the pores smaller than 4 μm. Definitely yttrium was not only distributed on the surface but also embedded in the coating. Yttrium mainly existed in form of Y2O3 and Y3+ state in prepared TiO2 coating. Element release profiles confirmed that yttrium release slowly from Y-TiO2 for 32 days. Cell culture tests demonstrated that Y-TiO2 coating exhibited good biocompatibility on osteoblastic precursor cells and fibroblasts cells with increasing doping concentration of yttrium. Bacteriostasis experiments revealed that Y-TiO2 coating possess excellent antibacterial property against Staphylococcus aureus (S. aureus) and Escherichia coli (E. coli). Thus, the prepared Y-TiO2 coating with outstanding biocompatibility and antibacterial capacity provided a preferred strategy for the repair and reconstruction of bone tissues in dentistry and orthopedics.