M. Agsous Et Al. , "Anti-tumoural activity of 3D printed fluorohydroxyapatite–polylactic acid scaffolds combined with graphene oxide and doxorubicin," Polymer International , vol.74, no.3, pp.277-285, 2025
Agsous, M. Et Al. 2025. Anti-tumoural activity of 3D printed fluorohydroxyapatite–polylactic acid scaffolds combined with graphene oxide and doxorubicin. Polymer International , vol.74, no.3 , 277-285.
Agsous, M., Hafit, K., Yala, S., Oktay, B., Bingöl, A. B., ŞENEL, İ., ... ÜSTÜNDAĞ, C. B.(2025). Anti-tumoural activity of 3D printed fluorohydroxyapatite–polylactic acid scaffolds combined with graphene oxide and doxorubicin. Polymer International , vol.74, no.3, 277-285.
Agsous, Maissa Et Al. "Anti-tumoural activity of 3D printed fluorohydroxyapatite–polylactic acid scaffolds combined with graphene oxide and doxorubicin," Polymer International , vol.74, no.3, 277-285, 2025
Agsous, Maissa Et Al. "Anti-tumoural activity of 3D printed fluorohydroxyapatite–polylactic acid scaffolds combined with graphene oxide and doxorubicin." Polymer International , vol.74, no.3, pp.277-285, 2025
Agsous, M. Et Al. (2025) . "Anti-tumoural activity of 3D printed fluorohydroxyapatite–polylactic acid scaffolds combined with graphene oxide and doxorubicin." Polymer International , vol.74, no.3, pp.277-285.
@article{article, author={Maissa Agsous Et Al. }, title={Anti-tumoural activity of 3D printed fluorohydroxyapatite–polylactic acid scaffolds combined with graphene oxide and doxorubicin}, journal={Polymer International}, year=2025, pages={277-285} }