İ. A. KARİPER Et Al. , "Uranium-anchored carbon nanotube-based hybrid nanostructure: A promising electrode material for high-performance ultracapacitors," CERAMICS INTERNATIONAL , vol.49, no.23, pp.37737-37745, 2023
KARİPER, İ. A. Et Al. 2023. Uranium-anchored carbon nanotube-based hybrid nanostructure: A promising electrode material for high-performance ultracapacitors. CERAMICS INTERNATIONAL , vol.49, no.23 , 37737-37745.
KARİPER, İ. A., KARAMAN, O., & KARAMAN, C., (2023). Uranium-anchored carbon nanotube-based hybrid nanostructure: A promising electrode material for high-performance ultracapacitors. CERAMICS INTERNATIONAL , vol.49, no.23, 37737-37745.
KARİPER, İSHAK, ONUR KARAMAN, And CEREN KARAMAN. "Uranium-anchored carbon nanotube-based hybrid nanostructure: A promising electrode material for high-performance ultracapacitors," CERAMICS INTERNATIONAL , vol.49, no.23, 37737-37745, 2023
KARİPER, İSHAK A. Et Al. "Uranium-anchored carbon nanotube-based hybrid nanostructure: A promising electrode material for high-performance ultracapacitors." CERAMICS INTERNATIONAL , vol.49, no.23, pp.37737-37745, 2023
KARİPER, İ. A. KARAMAN, O. And KARAMAN, C. (2023) . "Uranium-anchored carbon nanotube-based hybrid nanostructure: A promising electrode material for high-performance ultracapacitors." CERAMICS INTERNATIONAL , vol.49, no.23, pp.37737-37745.
@article{article, author={İSHAK AFŞİN KARİPER Et Al. }, title={Uranium-anchored carbon nanotube-based hybrid nanostructure: A promising electrode material for high-performance ultracapacitors}, journal={CERAMICS INTERNATIONAL}, year=2023, pages={37737-37745} }