Senturk, F. Et Al. 2022. Hydrolytic instability and low-loading levels of temozolomide to magnetic PLGA nanoparticles remain challenging against glioblastoma therapy. Journal of Drug Delivery Science and Technology , vol.68 .

Senturk, F., ÇAKMAK, S., GÜMÜŞDERELİOĞLU, M., & Ozturk, G. G., (2022). Hydrolytic instability and low-loading levels of temozolomide to magnetic PLGA nanoparticles remain challenging against glioblastoma therapy. Journal of Drug Delivery Science and Technology , vol.68.

Senturk, Fatih Et Al. "Hydrolytic instability and low-loading levels of temozolomide to magnetic PLGA nanoparticles remain challenging against glioblastoma therapy," Journal of Drug Delivery Science and Technology , vol.68, 2022

Senturk, Fatih Et Al. "Hydrolytic instability and low-loading levels of temozolomide to magnetic PLGA nanoparticles remain challenging against glioblastoma therapy." Journal of Drug Delivery Science and Technology , vol.68, 2022

Senturk, F. Et Al. (2022) . "Hydrolytic instability and low-loading levels of temozolomide to magnetic PLGA nanoparticles remain challenging against glioblastoma therapy." Journal of Drug Delivery Science and Technology , vol.68.

@article{article, author={Fatih Senturk Et Al. }, title={Hydrolytic instability and low-loading levels of temozolomide to magnetic PLGA nanoparticles remain challenging against glioblastoma therapy}, journal={Journal of Drug Delivery Science and Technology}, year=2022}