B. Sahin Et Al. , "Superior antibacterial activity against seed-borne plant bacterial disease agents and enhanced physical properties of novel green synthesized nanostructured ZnO using Thymbra spicata plant extract," CERAMICS INTERNATIONAL , vol.47, no.1, pp.341-350, 2021
Sahin, B. Et Al. 2021. Superior antibacterial activity against seed-borne plant bacterial disease agents and enhanced physical properties of novel green synthesized nanostructured ZnO using Thymbra spicata plant extract. CERAMICS INTERNATIONAL , vol.47, no.1 , 341-350.
Sahin, B., Soylu, S., Kara, M., Turkmen, M., Aydin, R., & Cetin, H., (2021). Superior antibacterial activity against seed-borne plant bacterial disease agents and enhanced physical properties of novel green synthesized nanostructured ZnO using Thymbra spicata plant extract. CERAMICS INTERNATIONAL , vol.47, no.1, 341-350.
Sahin, B. Et Al. "Superior antibacterial activity against seed-borne plant bacterial disease agents and enhanced physical properties of novel green synthesized nanostructured ZnO using Thymbra spicata plant extract," CERAMICS INTERNATIONAL , vol.47, no.1, 341-350, 2021
Sahin, B. Et Al. "Superior antibacterial activity against seed-borne plant bacterial disease agents and enhanced physical properties of novel green synthesized nanostructured ZnO using Thymbra spicata plant extract." CERAMICS INTERNATIONAL , vol.47, no.1, pp.341-350, 2021
Sahin, B. Et Al. (2021) . "Superior antibacterial activity against seed-borne plant bacterial disease agents and enhanced physical properties of novel green synthesized nanostructured ZnO using Thymbra spicata plant extract." CERAMICS INTERNATIONAL , vol.47, no.1, pp.341-350.
@article{article, author={B. Sahin Et Al. }, title={Superior antibacterial activity against seed-borne plant bacterial disease agents and enhanced physical properties of novel green synthesized nanostructured ZnO using Thymbra spicata plant extract}, journal={CERAMICS INTERNATIONAL}, year=2021, pages={341-350} }