TY  - JOUR
AU  - Reyes-Peces, Maria V
AU  - Felix, Eduardo
AU  - Martinez-Vazquez, Francisco J
AU  - Fernandez-Montesinos, Rafael
AU  - Bomati-Miguel, Oscar
AU  - Mesa-Diaz, Maria Del Mar
AU  - Alcantara, Rodrigo
AU  - Vilches-Perez, Jose Ignacio
AU  - Salido, Mercedes
AU  - De la Rosa-Fox, Nicolas
AU  - Piñero, Manuel
PY  - 2022
DO  - 10.3390/gels8100634
UR  - http://hdl.handle.net/10668/20976
T2  - Gels 
AB  - 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...
LA  - en
PB  - MDPI
KW  - 3D scaffold
KW  - Bone tissue engineering
KW  - Cytoskeleton
KW  - Focal adhesion
KW  - Hybrid
KW  - Laser micromachining
KW  - Osteoblasts
KW  - Regenerative medicine
KW  - Robocasting
KW  - Sol-gel ink
KW  - Tricalcium phosphate
KW  - Tissue engineering
KW  - Gelatin
KW  - Compressive strength
KW  - Porosity
KW  - Microtechnology
KW  - Viscosity
KW  - Biocompatible materials
TI  - Robocasting and Laser Micromachining of Sol-Gel Derived 3D Silica/Gelatin/β-TCP Scaffolds for Bone Tissue Regeneration.
TY  - Research article
VL  - 8
ER  -