Jamshidizadeh, S., Amrollahi Biuki, N., & Zarei, M. (2026). Marine Bioceramic Generation for Bone Tissue Regeneration: Sea Urchin (Echinometra mathaei) Exoskeleton-Derived Calcium Carbonate as a Precursor for Hydroxyapatite Synthesis, Incorporated into Chitosan Based-Hydrogel and 3D-Printed PCL Scaffold for Osteogenic Differentiation. Marine biotechnology (New York, N.Y.).
Cita Chicago Style (17a ed.)Jamshidizadeh, Sara, Narges Amrollahi Biuki, y Maaroof Zarei. Marine Bioceramic Generation for Bone Tissue Regeneration: Sea Urchin (Echinometra Mathaei) Exoskeleton-Derived Calcium Carbonate as a Precursor for Hydroxyapatite Synthesis, Incorporated into Chitosan Based-Hydrogel and 3D-Printed PCL Scaffold for Osteogenic Differentiation. Marine biotechnology (New York, N.Y.), 2026.
Cita MLA (9a ed.)Jamshidizadeh, Sara, et al. Marine Bioceramic Generation for Bone Tissue Regeneration: Sea Urchin (Echinometra Mathaei) Exoskeleton-Derived Calcium Carbonate as a Precursor for Hydroxyapatite Synthesis, Incorporated into Chitosan Based-Hydrogel and 3D-Printed PCL Scaffold for Osteogenic Differentiation. Marine biotechnology (New York, N.Y.), 2026.