Abstract
Titanium and its alloys are promising dental implant materials. In order to improve the bioactivity of the anodized films, the two‐step anodization was performed to produce the films. The steps were performed at 0.2 mA/cm2 for 30 min in electrolytes containing H3PO4/C2H5OH and H3PO4/C2H5OH/NH4F, respectively. The anodized films were soaked in a simulated body fluid (SBF). The effects of surface roughness, hydroxyl groups, fluoride, and hydrophilicity groups on the bioactivity were investigated and were found on the anodized films formed under two‐step anodization using 1 M H3PO4 + 80% V/V C2H5OH + 0.75 wt% NH4F. The bioactivity evaluation showed that the combination of two‐step anodization in NH4F as an electrolyte induced a formation of apatite on the anodized films. The surface roughness, hydroxyl groups, and fluoride formed on the hydrophilic anodized films are found to be responsible for the rapid formation of hydroxyapatite during SBF soaking. This will be useful in various biomedical applications especially in dental implant procedures.
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