Uludoğan, B. Et Al. 2021. A nanotechnological approach to wound healing: Beta-glucan-loaded Polyethylene Oxide/Sodium Alginate Fibers Produced by Pressurized Gyration. Applications of Chemistry in Nanosciences and Biomaterials Engineering , (Romania).

Uludoğan, B., Eser, E., ERTAŞ, B., & ÇAM, M. E., (2021). A nanotechnological approach to wound healing: Beta-glucan-loaded Polyethylene Oxide/Sodium Alginate Fibers Produced by Pressurized Gyration . Applications of Chemistry in Nanosciences and Biomaterials Engineering, Romania

Uludoğan, Beyzanur Et Al. "A nanotechnological approach to wound healing: Beta-glucan-loaded Polyethylene Oxide/Sodium Alginate Fibers Produced by Pressurized Gyration," Applications of Chemistry in Nanosciences and Biomaterials Engineering, Romania, 2021

Uludoğan, Beyzanur Et Al. "A nanotechnological approach to wound healing: Beta-glucan-loaded Polyethylene Oxide/Sodium Alginate Fibers Produced by Pressurized Gyration." Applications of Chemistry in Nanosciences and Biomaterials Engineering , Romania, 2021

Uludoğan, B. Et Al. (2021) . "A nanotechnological approach to wound healing: Beta-glucan-loaded Polyethylene Oxide/Sodium Alginate Fibers Produced by Pressurized Gyration." Applications of Chemistry in Nanosciences and Biomaterials Engineering , Romania.

@conferencepaper{conferencepaper, author={Beyzanur Uludoğan Et Al. }, title={A nanotechnological approach to wound healing: Beta-glucan-loaded Polyethylene Oxide/Sodium Alginate Fibers Produced by Pressurized Gyration}, congress name={Applications of Chemistry in Nanosciences and Biomaterials Engineering}, city={}, country={Romania}, year={2021}}