T. Cakmak Et Al. , "Novel Strategy for One-Step Production of Attenuated Ag-Containing AgCu/ZnO Antibacterial-Antifungal Nanocomposite Particles," POWDER METALLURGY AND METAL CERAMICS , vol.59, pp.261-270, 2020
Cakmak, T. Et Al. 2020. Novel Strategy for One-Step Production of Attenuated Ag-Containing AgCu/ZnO Antibacterial-Antifungal Nanocomposite Particles. POWDER METALLURGY AND METAL CERAMICS , vol.59 , 261-270.
Cakmak, T., Kaya, E. E., Kucuk, D., Ebin, B., BALCI, O., & Gürmen, S., (2020). Novel Strategy for One-Step Production of Attenuated Ag-Containing AgCu/ZnO Antibacterial-Antifungal Nanocomposite Particles. POWDER METALLURGY AND METAL CERAMICS , vol.59, 261-270.
Cakmak, Tolga Et Al. "Novel Strategy for One-Step Production of Attenuated Ag-Containing AgCu/ZnO Antibacterial-Antifungal Nanocomposite Particles," POWDER METALLURGY AND METAL CERAMICS , vol.59, 261-270, 2020
Cakmak, Tolga Et Al. "Novel Strategy for One-Step Production of Attenuated Ag-Containing AgCu/ZnO Antibacterial-Antifungal Nanocomposite Particles." POWDER METALLURGY AND METAL CERAMICS , vol.59, pp.261-270, 2020
Cakmak, T. Et Al. (2020) . "Novel Strategy for One-Step Production of Attenuated Ag-Containing AgCu/ZnO Antibacterial-Antifungal Nanocomposite Particles." POWDER METALLURGY AND METAL CERAMICS , vol.59, pp.261-270.
@article{article, author={Tolga Cakmak Et Al. }, title={Novel Strategy for One-Step Production of Attenuated Ag-Containing AgCu/ZnO Antibacterial-Antifungal Nanocomposite Particles}, journal={POWDER METALLURGY AND METAL CERAMICS}, year=2020, pages={261-270} }