Basbug, B. Et Al. 2024. Exploring Waste Wool Derived-Keratin Nanofiber Architectures on Cotton Fabrics: Electrospinning Strategies for Enhanced Material Properties. ACS APPLIED POLYMER MATERIALS , vol.6, no.13 , 7417-7429.

Basbug, B., Beycan, B., KALKAN ERDOĞAN, M., KARAKIŞLA, M., & SAÇAK, M., (2024). Exploring Waste Wool Derived-Keratin Nanofiber Architectures on Cotton Fabrics: Electrospinning Strategies for Enhanced Material Properties. ACS APPLIED POLYMER MATERIALS , vol.6, no.13, 7417-7429.

Basbug, Begum Et Al. "Exploring Waste Wool Derived-Keratin Nanofiber Architectures on Cotton Fabrics: Electrospinning Strategies for Enhanced Material Properties," ACS APPLIED POLYMER MATERIALS , vol.6, no.13, 7417-7429, 2024

Basbug, Begum Et Al. "Exploring Waste Wool Derived-Keratin Nanofiber Architectures on Cotton Fabrics: Electrospinning Strategies for Enhanced Material Properties." ACS APPLIED POLYMER MATERIALS , vol.6, no.13, pp.7417-7429, 2024

Basbug, B. Et Al. (2024) . "Exploring Waste Wool Derived-Keratin Nanofiber Architectures on Cotton Fabrics: Electrospinning Strategies for Enhanced Material Properties." ACS APPLIED POLYMER MATERIALS , vol.6, no.13, pp.7417-7429.

@article{article, author={Begum Basbug Et Al. }, title={Exploring Waste Wool Derived-Keratin Nanofiber Architectures on Cotton Fabrics: Electrospinning Strategies for Enhanced Material Properties}, journal={ACS APPLIED POLYMER MATERIALS}, year=2024, pages={7417-7429} }