Surface properties of in vitro bioactive and non-bioactive sol-gel derived materials

The acid-base properties of several in vitro bioactive (able to form bone mineral-like calcium phosphate on their surfaces) and nonbioactive sol-gel processed oxides are studied. The amount, of Lewis acid sites was calculated from the pyridine adsorption using the Langmuir adsorption model. The Henry adsorption model Was used in cases where no specific affinity between the adsorbent and the probe molecule was observed. The results were Used to calculate the specific amounts of acidic and basic sites oil SiO2- and TiO2- based materials. The zeta potential was measured for dip-coated TiO2 films, calcium- and phosphate-doped TiO2 films and for a non-bioactive Al2O3 film. Also, the calcium phosphate formation in simulated body fluid on in vitro bioactive TiO2 film was studied with zeta potential measurements. The results showed dependence on the negative surface charge and the important role of calcium adsorption in the beginning of the calcium phosphate formation. Surface topography of the films was investigated with atomic force microscopy, including a detailed analysis of the peak heights and distribution over cross sections. It was observed that in vitro bioactivity was strongly dependent on the nanoscale dimensions. Consequently, the in vitro calcium phosphate formation seems to be due to both the chemical interactions and the surface structure. (C) 2002 Elsevier Science Ltd. All rights reserved.