UZUN YAYLACI, E. Et Al. 2023. Analysis of the mechano-bactericidal effects of nanopatterned surfaces on implant-derived bacteria using the FEM. ADVANCES IN NANO RESEARCH , vol.15, no.6 , 567-577.

UZUN YAYLACI, E., Ozdemir, M. E., Guvercin, Y., ÖZTÜRK, Ş., & YAYLACI, M., (2023). Analysis of the mechano-bactericidal effects of nanopatterned surfaces on implant-derived bacteria using the FEM. ADVANCES IN NANO RESEARCH , vol.15, no.6, 567-577.

UZUN YAYLACI, ECREN Et Al. "Analysis of the mechano-bactericidal effects of nanopatterned surfaces on implant-derived bacteria using the FEM," ADVANCES IN NANO RESEARCH , vol.15, no.6, 567-577, 2023

UZUN YAYLACI, ECREN U. Et Al. "Analysis of the mechano-bactericidal effects of nanopatterned surfaces on implant-derived bacteria using the FEM." ADVANCES IN NANO RESEARCH , vol.15, no.6, pp.567-577, 2023

UZUN YAYLACI, E. Et Al. (2023) . "Analysis of the mechano-bactericidal effects of nanopatterned surfaces on implant-derived bacteria using the FEM." ADVANCES IN NANO RESEARCH , vol.15, no.6, pp.567-577.

@article{article, author={ECREN UZUN YAYLACI Et Al. }, title={Analysis of the mechano-bactericidal effects of nanopatterned surfaces on implant-derived bacteria using the FEM}, journal={ADVANCES IN NANO RESEARCH}, year=2023, pages={567-577} }