Robocasting and Laser Micromachining of Sol-Gel Derived 3D Silica/Gelatin/β-TCP Scaffolds for Bone Tissue Regeneration

Abstract: The design and synthesis of sol-gel silica-based hybrid materials and composites offer significant benefits to obtain innovative biomaterials with controlled porosity at the nanostructure level for applications in bone tissue engineering. In this work, the combination of robocasting with sol-gel ink of suitable viscosity prepared by mixing tetraethoxysilane (TEOS), gelatin and β-tricalcium phosphate (β-TCP) allowed for the manufacture of 3D scaffolds consisting of a 3D square mesh of interpenetrating rods, wit… Show more

“…A favourable microstructure can be achieved both through appropriate heat treatments and through the use of additives that can act as nucleating agents [237]. The main methods of obtaining bioactive glasses and glass ceramics are the traditional melting techniques [238], the sol-gel method [239][240][241], the synthesis assisted by ultrasound [242], microwaves [243] or the hydrothermal synthesis [244].…”

Advanced Biomedical Applications of Multifunctional Natural and Synthetic Biomaterials

“…A favourable microstructure can be achieved both through appropriate heat treatments and through the use of additives that can act as nucleating agents [237]. The main methods of obtaining bioactive glasses and glass ceramics are the traditional melting techniques [238], the sol-gel method [239][240][241], the synthesis assisted by ultrasound [242], microwaves [243] or the hydrothermal synthesis [244].…”

Advanced Biomedical Applications of Multifunctional Natural and Synthetic Biomaterials

Special Issue: Bioceramics, Bioglasses, and Gels for Tissue Engineering