D. Karataş Et Al. , "Enhancing the Kinetic Stability of Polymeric Nanomicelles (PLGA) Using Nano-Montmorillonite for Effective Targeting of Cancer Tumors.," The journal of physical chemistry. B , vol.126, pp.463-479, 2022
Karataş, D. Et Al. 2022. Enhancing the Kinetic Stability of Polymeric Nanomicelles (PLGA) Using Nano-Montmorillonite for Effective Targeting of Cancer Tumors.. The journal of physical chemistry. B , vol.126 , 463-479.
Karataş, D., Bahadori, F., Tekin, A., Ergin Kizilcay, G., & Celik, M. S., (2022). Enhancing the Kinetic Stability of Polymeric Nanomicelles (PLGA) Using Nano-Montmorillonite for Effective Targeting of Cancer Tumors.. The journal of physical chemistry. B , vol.126, 463-479.
Karataş, Deniz Et Al. "Enhancing the Kinetic Stability of Polymeric Nanomicelles (PLGA) Using Nano-Montmorillonite for Effective Targeting of Cancer Tumors.," The journal of physical chemistry. B , vol.126, 463-479, 2022
Karataş, Deniz Et Al. "Enhancing the Kinetic Stability of Polymeric Nanomicelles (PLGA) Using Nano-Montmorillonite for Effective Targeting of Cancer Tumors.." The journal of physical chemistry. B , vol.126, pp.463-479, 2022
Karataş, D. Et Al. (2022) . "Enhancing the Kinetic Stability of Polymeric Nanomicelles (PLGA) Using Nano-Montmorillonite for Effective Targeting of Cancer Tumors.." The journal of physical chemistry. B , vol.126, pp.463-479.
@article{article, author={Deniz Karataş Et Al. }, title={Enhancing the Kinetic Stability of Polymeric Nanomicelles (PLGA) Using Nano-Montmorillonite for Effective Targeting of Cancer Tumors.}, journal={The journal of physical chemistry. B}, year=2022, pages={463-479} }