KANMAZ, D. Et Al. 2024. A New Lotus-Leaf-Inspired Beaded Nanofiber Strategy for the Development of Cryogel/Nanofiber Hybrid Structures. Fibers and Polymers , vol.25, no.4 , 1233-1242.

KANMAZ, D., OSMAN, B., & KARACA, E., (2024). A New Lotus-Leaf-Inspired Beaded Nanofiber Strategy for the Development of Cryogel/Nanofiber Hybrid Structures. Fibers and Polymers , vol.25, no.4, 1233-1242.

KANMAZ, DİLAYDA, BİLGEN OSMAN, And ESRA KARACA. "A New Lotus-Leaf-Inspired Beaded Nanofiber Strategy for the Development of Cryogel/Nanofiber Hybrid Structures," Fibers and Polymers , vol.25, no.4, 1233-1242, 2024

KANMAZ, DİLAYDA Et Al. "A New Lotus-Leaf-Inspired Beaded Nanofiber Strategy for the Development of Cryogel/Nanofiber Hybrid Structures." Fibers and Polymers , vol.25, no.4, pp.1233-1242, 2024

KANMAZ, D. OSMAN, B. And KARACA, E. (2024) . "A New Lotus-Leaf-Inspired Beaded Nanofiber Strategy for the Development of Cryogel/Nanofiber Hybrid Structures." Fibers and Polymers , vol.25, no.4, pp.1233-1242.

@article{article, author={DİLAYDA KANMAZ Et Al. }, title={A New Lotus-Leaf-Inspired Beaded Nanofiber Strategy for the Development of Cryogel/Nanofiber Hybrid Structures}, journal={Fibers and Polymers}, year=2024, pages={1233-1242} }