S. Kaya Et Al. , "Designing of Polymeric Nanoparticles for Enhanced Breast Cancer Therapy: Combining Paclitaxel, Boric Acid and Tannic Acid for Controlled Drug Delivery," CHEMISTRYSELECT , vol.9, no.7, 2024
Kaya, S. Et Al. 2024. Designing of Polymeric Nanoparticles for Enhanced Breast Cancer Therapy: Combining Paclitaxel, Boric Acid and Tannic Acid for Controlled Drug Delivery. CHEMISTRYSELECT , vol.9, no.7 .
Kaya, S., Kondolot Solak, E., Yiyit Doğan, S., Demirkaya, A., & Sağdıçoğlu Celep, A. G., (2024). Designing of Polymeric Nanoparticles for Enhanced Breast Cancer Therapy: Combining Paclitaxel, Boric Acid and Tannic Acid for Controlled Drug Delivery. CHEMISTRYSELECT , vol.9, no.7.
Kaya, SEÇİL Et Al. "Designing of Polymeric Nanoparticles for Enhanced Breast Cancer Therapy: Combining Paclitaxel, Boric Acid and Tannic Acid for Controlled Drug Delivery," CHEMISTRYSELECT , vol.9, no.7, 2024
Kaya, SEÇİL Et Al. "Designing of Polymeric Nanoparticles for Enhanced Breast Cancer Therapy: Combining Paclitaxel, Boric Acid and Tannic Acid for Controlled Drug Delivery." CHEMISTRYSELECT , vol.9, no.7, 2024
Kaya, S. Et Al. (2024) . "Designing of Polymeric Nanoparticles for Enhanced Breast Cancer Therapy: Combining Paclitaxel, Boric Acid and Tannic Acid for Controlled Drug Delivery." CHEMISTRYSELECT , vol.9, no.7.
@article{article, author={SEÇİL KAYA Et Al. }, title={Designing of Polymeric Nanoparticles for Enhanced Breast Cancer Therapy: Combining Paclitaxel, Boric Acid and Tannic Acid for Controlled Drug Delivery}, journal={CHEMISTRYSELECT}, year=2024}