Razaghi, M. Et Al. 2020. Highly fluorinated graphene oxide nanosheets for anticancer linoleic-curcumin conjugate delivery and T2-Weighted magnetic resonance imaging: In vitro and in vivo studies. Journal of Drug Delivery Science and Technology , vol.60 .

Razaghi, M., Ramazani, A., Khoobi, M., Mortezazadeh, T., AKSOY, E. A., & Küçükkılınç, T. T., (2020). Highly fluorinated graphene oxide nanosheets for anticancer linoleic-curcumin conjugate delivery and T2-Weighted magnetic resonance imaging: In vitro and in vivo studies. Journal of Drug Delivery Science and Technology , vol.60.

Razaghi, Maryam Et Al. "Highly fluorinated graphene oxide nanosheets for anticancer linoleic-curcumin conjugate delivery and T2-Weighted magnetic resonance imaging: In vitro and in vivo studies," Journal of Drug Delivery Science and Technology , vol.60, 2020

Razaghi, Maryam Et Al. "Highly fluorinated graphene oxide nanosheets for anticancer linoleic-curcumin conjugate delivery and T2-Weighted magnetic resonance imaging: In vitro and in vivo studies." Journal of Drug Delivery Science and Technology , vol.60, 2020

Razaghi, M. Et Al. (2020) . "Highly fluorinated graphene oxide nanosheets for anticancer linoleic-curcumin conjugate delivery and T2-Weighted magnetic resonance imaging: In vitro and in vivo studies." Journal of Drug Delivery Science and Technology , vol.60.

@article{article, author={Maryam Razaghi Et Al. }, title={Highly fluorinated graphene oxide nanosheets for anticancer linoleic-curcumin conjugate delivery and T2-Weighted magnetic resonance imaging: In vitro and in vivo studies}, journal={Journal of Drug Delivery Science and Technology}, year=2020}