B. Yetiskin And O. Okay, "Silk Fibroin Cryogel Building Adaptive Organohydrogels with Switching Mechanics and Viscoelasticity," ACS APPLIED POLYMER MATERIALS , vol.4, no.7, pp.5234-5245, 2022
Yetiskin, B. And Okay, O. 2022. Silk Fibroin Cryogel Building Adaptive Organohydrogels with Switching Mechanics and Viscoelasticity. ACS APPLIED POLYMER MATERIALS , vol.4, no.7 , 5234-5245.
Yetiskin, B., & Okay, O., (2022). Silk Fibroin Cryogel Building Adaptive Organohydrogels with Switching Mechanics and Viscoelasticity. ACS APPLIED POLYMER MATERIALS , vol.4, no.7, 5234-5245.
Yetiskin, Berkant, And Oğuz Okay. "Silk Fibroin Cryogel Building Adaptive Organohydrogels with Switching Mechanics and Viscoelasticity," ACS APPLIED POLYMER MATERIALS , vol.4, no.7, 5234-5245, 2022
Yetiskin, Berkant And Okay, Oğuz. "Silk Fibroin Cryogel Building Adaptive Organohydrogels with Switching Mechanics and Viscoelasticity." ACS APPLIED POLYMER MATERIALS , vol.4, no.7, pp.5234-5245, 2022
Yetiskin, B. And Okay, O. (2022) . "Silk Fibroin Cryogel Building Adaptive Organohydrogels with Switching Mechanics and Viscoelasticity." ACS APPLIED POLYMER MATERIALS , vol.4, no.7, pp.5234-5245.
@article{article, author={Berkant Yetiskin And author={Oğuz Okay}, title={Silk Fibroin Cryogel Building Adaptive Organohydrogels with Switching Mechanics and Viscoelasticity}, journal={ACS APPLIED POLYMER MATERIALS}, year=2022, pages={5234-5245} }