Y. Ö. Yeşilbağ Et Al. , "Synthesis and characterization of graphene/carbon nanotube hybrid: effects of Ni catalyst thickness and H2 flow rate on growth and morphological structure," Journal of Materials Science: Materials in Electronics , vol.32, no.6, pp.7943-7955, 2021
Yeşilbağ, Y. Ö. Et Al. 2021. Synthesis and characterization of graphene/carbon nanotube hybrid: effects of Ni catalyst thickness and H2 flow rate on growth and morphological structure. Journal of Materials Science: Materials in Electronics , vol.32, no.6 , 7943-7955.
Yeşilbağ, Y. Ö., Tuzluca Yeşilbağ, F. N., Huseyın, A., Tuzluca, M., Ismaıl, I., & Ertuğrul, M., (2021). Synthesis and characterization of graphene/carbon nanotube hybrid: effects of Ni catalyst thickness and H2 flow rate on growth and morphological structure. Journal of Materials Science: Materials in Electronics , vol.32, no.6, 7943-7955.
Yeşilbağ, YAŞAR Et Al. "Synthesis and characterization of graphene/carbon nanotube hybrid: effects of Ni catalyst thickness and H2 flow rate on growth and morphological structure," Journal of Materials Science: Materials in Electronics , vol.32, no.6, 7943-7955, 2021
Yeşilbağ, YAŞAR Ö. Et Al. "Synthesis and characterization of graphene/carbon nanotube hybrid: effects of Ni catalyst thickness and H2 flow rate on growth and morphological structure." Journal of Materials Science: Materials in Electronics , vol.32, no.6, pp.7943-7955, 2021
Yeşilbağ, Y. Ö. Et Al. (2021) . "Synthesis and characterization of graphene/carbon nanotube hybrid: effects of Ni catalyst thickness and H2 flow rate on growth and morphological structure." Journal of Materials Science: Materials in Electronics , vol.32, no.6, pp.7943-7955.
@article{article, author={YAŞAR ÖZKAN YEŞİLBAĞ Et Al. }, title={Synthesis and characterization of graphene/carbon nanotube hybrid: effects of Ni catalyst thickness and H2 flow rate on growth and morphological structure}, journal={Journal of Materials Science: Materials in Electronics}, year=2021, pages={7943-7955} }