This project explores a new concept of achieving the goal of developing titanium-hydroxyapatite composites free of secondary phases. The concept is based on precipitation of calcium deficient hydroxyapatite into titanium robocast scaffolds at physiological temperature. The project addresses the possibility of combining bioactivity, multiscale porosity, and load-bearing capacity in a single fully synthetic material that would represent a step forward in the design of new materials for bone regeneration.

CEITEC VUT/FAST-J-22-7956

Czech

Kashimbetova Adelia - principal person responsible
Běťák Adam, Ing. - fellow researcher
Dvořák Karel, doc. Ing., Ph.D. - fellow researcher
Montufar Jimenez Edgar Benjamin, M.Sc., Ph.D. - fellow researcher
Ravaszová Simona, Ing., Ph.D. - fellow researcher
Vaněrek Jan, doc. Ing., Ph.D. - fellow researcher

Advanced Coatings
- responsible department (3.3.2022 - not assigned)
Central European Institute of Technology BUT
- responsible department (7.2.2022 - 3.3.2022)
Advanced Coatings
- internal (1.1.2022 - 31.12.2022)
Faculty of Civil Engineering
- internal (1.1.2022 - 31.12.2022)
Institute of Technology of Building Materials and Components
- internal (1.1.2022 - 31.12.2022)
Central European Institute of Technology BUT
- beneficiary (1.1.2022 - 31.12.2022)

OLIVER URRUTIA, C.; DROTÁROVÁ, L.; GASCÓN-PÉREZ, S.; SLÁMEČKA, K.; RAVASZOVÁ, S.; ČELKO, L.; MONTUFAR JIMENEZ, E. Hydroxyapatite-Resin Composites Produced by Vat Photopolymerization and Post-Processing via In Situ Hydrolysis of Alpha Tricalcium Phosphate. Ceramics-Switzerland, 2023, vol. 6, no. 4, p. 2282-2294. ISSN: 2571-6131.
Detail

Responsibility: Kashimbetova Adelia