Isik, M. Et Al. 2023. 3D Printing of Extracellular Matrix-Based Multicomponent, All-Natural, Highly Elastic, and Functional Materials toward Vascular Tissue Engineering. Advanced Healthcare Materials , vol.12, no.20 .

Isik, M., Karakaya, E., Arslan, T. S., Atila, D., Erdogan, Y. K., Arslan, Y. E., ... Eskizengin, H.(2023). 3D Printing of Extracellular Matrix-Based Multicomponent, All-Natural, Highly Elastic, and Functional Materials toward Vascular Tissue Engineering. Advanced Healthcare Materials , vol.12, no.20.

Isik, Melis Et Al. "3D Printing of Extracellular Matrix-Based Multicomponent, All-Natural, Highly Elastic, and Functional Materials toward Vascular Tissue Engineering," Advanced Healthcare Materials , vol.12, no.20, 2023

Isik, Melis Et Al. "3D Printing of Extracellular Matrix-Based Multicomponent, All-Natural, Highly Elastic, and Functional Materials toward Vascular Tissue Engineering." Advanced Healthcare Materials , vol.12, no.20, 2023

Isik, M. Et Al. (2023) . "3D Printing of Extracellular Matrix-Based Multicomponent, All-Natural, Highly Elastic, and Functional Materials toward Vascular Tissue Engineering." Advanced Healthcare Materials , vol.12, no.20.

@article{article, author={Melis Isik Et Al. }, title={3D Printing of Extracellular Matrix-Based Multicomponent, All-Natural, Highly Elastic, and Functional Materials toward Vascular Tissue Engineering}, journal={Advanced Healthcare Materials}, year=2023}