Kral, Ö. Et Al. 2025. Development of nanosuspension-based thermosensitive gel formulation for radiodermatitis treatment: In vitro-in vivo characterization and investigation of neutron-gamma absorption properties. Journal of Drug Delivery Science and Technology , vol.110 .

Kral, Ö., İLBASMIŞ TAMER, S., HAN, ., YÜCEL, Ç., Tirnaksiz, F., Aygün, B., ... SOLA, V.(2025). Development of nanosuspension-based thermosensitive gel formulation for radiodermatitis treatment: In vitro-in vivo characterization and investigation of neutron-gamma absorption properties. Journal of Drug Delivery Science and Technology , vol.110.

Kral, Özlem Et Al. "Development of nanosuspension-based thermosensitive gel formulation for radiodermatitis treatment: In vitro-in vivo characterization and investigation of neutron-gamma absorption properties," Journal of Drug Delivery Science and Technology , vol.110, 2025

Kral, Özlem Et Al. "Development of nanosuspension-based thermosensitive gel formulation for radiodermatitis treatment: In vitro-in vivo characterization and investigation of neutron-gamma absorption properties." Journal of Drug Delivery Science and Technology , vol.110, 2025

Kral, Ö. Et Al. (2025) . "Development of nanosuspension-based thermosensitive gel formulation for radiodermatitis treatment: In vitro-in vivo characterization and investigation of neutron-gamma absorption properties." Journal of Drug Delivery Science and Technology , vol.110.

@article{article, author={Özlem Kral Et Al. }, title={Development of nanosuspension-based thermosensitive gel formulation for radiodermatitis treatment: In vitro-in vivo characterization and investigation of neutron-gamma absorption properties}, journal={Journal of Drug Delivery Science and Technology}, year=2025}