M. Ekremoglu Et Al. , "A novel wound healing agent with antimicrobial properties: BSA-inorganic hybrid nanoflowers," FEBS OPEN BIO , vol.12, pp.312, 2022
Ekremoglu, M. Et Al. 2022. A novel wound healing agent with antimicrobial properties: BSA-inorganic hybrid nanoflowers. FEBS OPEN BIO , vol.12 , 312.
Ekremoglu, M., Haciosmanoglu, E., Hacioglu, M., Altinkaynak, C., & Ozdemir, N., (2022). A novel wound healing agent with antimicrobial properties: BSA-inorganic hybrid nanoflowers. FEBS OPEN BIO , vol.12, 312.
Ekremoglu, M. Et Al. "A novel wound healing agent with antimicrobial properties: BSA-inorganic hybrid nanoflowers," FEBS OPEN BIO , vol.12, 312, 2022
Ekremoglu, M. Et Al. "A novel wound healing agent with antimicrobial properties: BSA-inorganic hybrid nanoflowers." FEBS OPEN BIO , vol.12, pp.312, 2022
Ekremoglu, M. Et Al. (2022) . "A novel wound healing agent with antimicrobial properties: BSA-inorganic hybrid nanoflowers." FEBS OPEN BIO , vol.12, p.312.
@article{article, author={M. Ekremoglu Et Al. }, title={A novel wound healing agent with antimicrobial properties: BSA-inorganic hybrid nanoflowers}, journal={FEBS OPEN BIO}, year=2022, pages={312} }