- Innovative procedure for the controlled surface processing of a new bioalloy by combining for the first time of the chemical, electrochemical and bacteriostatic methods.
-The obtaining of nanoporous, controlled surface structures for the increase of the bioactivity,
osseointegration, bone cell development, antibacterial action and life time of the implants based on a new bioalloy (innovative procedures).
- Complex and complete characterization (scientific novelties) of the new nano
structured surfaces by means of modern world-level techniques (Raman spectroscopy, XRD, FT-IR, XPS ICP/MS, SEM, TEM, AFM, electrochemical impedance spectroscopy - EIS).
- Modelling for the first time of the interfaces: structured metallic surface / simulated physiological fluids by electrochemical methods (internationally competitive) demonstrating the improved biocompatibility and bioactivity of new bioalloy with processed surfaces.
- Monitoring of the long term stability of the complex processed surfaces.
- Original data bank on the protective performances of the new functionalized surfaces and the prediction of their behaviour for long term.
- Analysis of the bioactivity and bacteriostatic properties on new functionalized surfaces (progress in the field).
- Improvement of the life quality and health state of the patients by the utilisation of the new implant biomaterial with nanostructured surfaces.
- An efficient utilisation of the natural resources by the increase of the "service life" of the processed surfaces.
- Contribution to enhance the worldwide level of knowledge in the top field of the bioactive and bacteriostatic processed surfaces.
