The aim of this work was to investigate the state of fluoride at the surface of fluoridemodified titanium implants, and to provide information to support or discard the hypothesis that fluoride ion participates in the osseointegration of implants. Titanium is coated with a 2-10 nm thick layer of stable and adherent TiO2, which reacts with fluoride as a function of the anion concentration. Under present experimental conditions, the half-life of the reaction is about 2 minutes at 17 °C.

The stoichiometry of the reaction Ti:

F is 0.46 ± 0.03, which do not differs significantly from 0.5, the ratio inferred from the reaction between sodium fluoride and TiO2: 3 TiO2 + 6 NaF Na2 TiF6 + 2 Na2 TiO3 . The reaction proceeds as a function of the fraction of anionic fluoride concentration, which increases from a minimum at pH 1 to a maximum close to pH 6. The number of fluoride mmoles that react with TiO2 grows exponentially as a function of fluoride concentration, towards a maximum at 0.24 M fluoride. According to literature reports, potassium hexafluorotitanate is insoluble in water and it decomposes by heating at 780 °C, indicating a high formation constant. It is concluded that the hexafluorotitanate would not ionize to provide fluoride ion to the implant-bone environment and to promote growth and differentiation of osteoblasts. The effect of fluoride on the surface of titanium sheet was investigated under SEM, showing that the titanium sheet surface is roughened and electron dispersive spectroscopic microanalysis indicated that fluorine is included in the TiO2 layer. (AU)