G. Eke Et Al. , "Development of a UV crosslinked biodegradable hydrogel containing adipose derived stem cells to promote vascularization for skin wounds and tissue engineering," BIOMATERIALS , vol.129, pp.188-198, 2017
Eke, G. Et Al. 2017. Development of a UV crosslinked biodegradable hydrogel containing adipose derived stem cells to promote vascularization for skin wounds and tissue engineering. BIOMATERIALS , vol.129 , 188-198.
Eke, G., Mangir, N., Hasirci, N., MacNeil, S., & HASIRCI, V. N., (2017). Development of a UV crosslinked biodegradable hydrogel containing adipose derived stem cells to promote vascularization for skin wounds and tissue engineering. BIOMATERIALS , vol.129, 188-198.
Eke, Gozde Et Al. "Development of a UV crosslinked biodegradable hydrogel containing adipose derived stem cells to promote vascularization for skin wounds and tissue engineering," BIOMATERIALS , vol.129, 188-198, 2017
Eke, Gozde Et Al. "Development of a UV crosslinked biodegradable hydrogel containing adipose derived stem cells to promote vascularization for skin wounds and tissue engineering." BIOMATERIALS , vol.129, pp.188-198, 2017
Eke, G. Et Al. (2017) . "Development of a UV crosslinked biodegradable hydrogel containing adipose derived stem cells to promote vascularization for skin wounds and tissue engineering." BIOMATERIALS , vol.129, pp.188-198.
@article{article, author={Gozde Eke Et Al. }, title={Development of a UV crosslinked biodegradable hydrogel containing adipose derived stem cells to promote vascularization for skin wounds and tissue engineering}, journal={BIOMATERIALS}, year=2017, pages={188-198} }