Yılgör Huri, P. 2023. 3D printed hydrogel scaffold promotes the formation of hormone-active engineered parathyroid tissue. BIOMEDICAL MATERIALS (BRISTOL, ENGLAND) , vol.1, no.1 , 1-10.

Yılgör Huri, P., (2023). 3D printed hydrogel scaffold promotes the formation of hormone-active engineered parathyroid tissue. BIOMEDICAL MATERIALS (BRISTOL, ENGLAND) , vol.1, no.1, 1-10.

Yılgör Huri, PINAR. "3D printed hydrogel scaffold promotes the formation of hormone-active engineered parathyroid tissue," BIOMEDICAL MATERIALS (BRISTOL, ENGLAND) , vol.1, no.1, 1-10, 2023

Yılgör Huri, PINAR Y. . "3D printed hydrogel scaffold promotes the formation of hormone-active engineered parathyroid tissue." BIOMEDICAL MATERIALS (BRISTOL, ENGLAND) , vol.1, no.1, pp.1-10, 2023

Yılgör Huri, P. (2023) . "3D printed hydrogel scaffold promotes the formation of hormone-active engineered parathyroid tissue." BIOMEDICAL MATERIALS (BRISTOL, ENGLAND) , vol.1, no.1, pp.1-10.

@article{article, author={PINAR YILGÖR HURİ}, title={3D printed hydrogel scaffold promotes the formation of hormone-active engineered parathyroid tissue}, journal={BIOMEDICAL MATERIALS (BRISTOL, ENGLAND)}, year=2023, pages={1-10} }