A. TAŞDEMİR Et Al. , "Green and cost-effective synthesis of zinc oxide thin films by L-ascorbic acid (AA) and their potential for electronics and antibacterial applications," Ceramics International , vol.48, no.7, pp.10164-10173, 2022
TAŞDEMİR, A. Et Al. 2022. Green and cost-effective synthesis of zinc oxide thin films by L-ascorbic acid (AA) and their potential for electronics and antibacterial applications. Ceramics International , vol.48, no.7 , 10164-10173.
TAŞDEMİR, A., Akman, N., Akkaya, A., Aydın, R., & Şahin, B., (2022). Green and cost-effective synthesis of zinc oxide thin films by L-ascorbic acid (AA) and their potential for electronics and antibacterial applications. Ceramics International , vol.48, no.7, 10164-10173.
TAŞDEMİR, ABDULKADİR Et Al. "Green and cost-effective synthesis of zinc oxide thin films by L-ascorbic acid (AA) and their potential for electronics and antibacterial applications," Ceramics International , vol.48, no.7, 10164-10173, 2022
TAŞDEMİR, ABDULKADİR Et Al. "Green and cost-effective synthesis of zinc oxide thin films by L-ascorbic acid (AA) and their potential for electronics and antibacterial applications." Ceramics International , vol.48, no.7, pp.10164-10173, 2022
TAŞDEMİR, A. Et Al. (2022) . "Green and cost-effective synthesis of zinc oxide thin films by L-ascorbic acid (AA) and their potential for electronics and antibacterial applications." Ceramics International , vol.48, no.7, pp.10164-10173.
@article{article, author={ABDULKADİR TAŞDEMİR Et Al. }, title={Green and cost-effective synthesis of zinc oxide thin films by L-ascorbic acid (AA) and their potential for electronics and antibacterial applications}, journal={Ceramics International}, year=2022, pages={10164-10173} }