H. Kaya Et Al. , "CNT incorporation improves the resolution and stability of porous 3D printed PLGA/HA/CNT scaffolds for bone regeneration," Biomedical Materials (Bristol) , vol.18, no.5, 2023
Kaya, H. Et Al. 2023. CNT incorporation improves the resolution and stability of porous 3D printed PLGA/HA/CNT scaffolds for bone regeneration. Biomedical Materials (Bristol) , vol.18, no.5 .
Kaya, H., Arıcı, Ş., Bulut, O., Bilgili, F., & Ege, D., (2023). CNT incorporation improves the resolution and stability of porous 3D printed PLGA/HA/CNT scaffolds for bone regeneration. Biomedical Materials (Bristol) , vol.18, no.5.
Kaya, Hatice Et Al. "CNT incorporation improves the resolution and stability of porous 3D printed PLGA/HA/CNT scaffolds for bone regeneration," Biomedical Materials (Bristol) , vol.18, no.5, 2023
Kaya, Hatice Et Al. "CNT incorporation improves the resolution and stability of porous 3D printed PLGA/HA/CNT scaffolds for bone regeneration." Biomedical Materials (Bristol) , vol.18, no.5, 2023
Kaya, H. Et Al. (2023) . "CNT incorporation improves the resolution and stability of porous 3D printed PLGA/HA/CNT scaffolds for bone regeneration." Biomedical Materials (Bristol) , vol.18, no.5.
@article{article, author={Hatice Kaya Et Al. }, title={CNT incorporation improves the resolution and stability of porous 3D printed PLGA/HA/CNT scaffolds for bone regeneration}, journal={Biomedical Materials (Bristol)}, year=2023}