Topsakal, A. Et Al. 2021. Study on the cytocompatibility, mechanical and antimicrobial properties of 3D printed composite scaffolds based on PVA/ Gold nanoparticles (AuNP)/ Ampicillin (AMP) for bone tissue engineering. Materials Today Communications , vol.28 .

Topsakal, A., Midha, S., YÜCA YILMAZ, E., Tukay, A., Sasmazel, H. T., Kalaskar, D. M., ... GÜNDÜZ, O.(2021). Study on the cytocompatibility, mechanical and antimicrobial properties of 3D printed composite scaffolds based on PVA/ Gold nanoparticles (AuNP)/ Ampicillin (AMP) for bone tissue engineering. Materials Today Communications , vol.28.

Topsakal, Aysenur Et Al. "Study on the cytocompatibility, mechanical and antimicrobial properties of 3D printed composite scaffolds based on PVA/ Gold nanoparticles (AuNP)/ Ampicillin (AMP) for bone tissue engineering," Materials Today Communications , vol.28, 2021

Topsakal, Aysenur Et Al. "Study on the cytocompatibility, mechanical and antimicrobial properties of 3D printed composite scaffolds based on PVA/ Gold nanoparticles (AuNP)/ Ampicillin (AMP) for bone tissue engineering." Materials Today Communications , vol.28, 2021

Topsakal, A. Et Al. (2021) . "Study on the cytocompatibility, mechanical and antimicrobial properties of 3D printed composite scaffolds based on PVA/ Gold nanoparticles (AuNP)/ Ampicillin (AMP) for bone tissue engineering." Materials Today Communications , vol.28.

@article{article, author={Aysenur Topsakal Et Al. }, title={Study on the cytocompatibility, mechanical and antimicrobial properties of 3D printed composite scaffolds based on PVA/ Gold nanoparticles (AuNP)/ Ampicillin (AMP) for bone tissue engineering}, journal={Materials Today Communications}, year=2021}