M. Alaf, "The SnO2 nanotube with CNT core structure (SnO2@void@CNT) and graphene composite electrode for Li-ion batteries," THERMAL SCIENCE , vol.27, no.4B, pp.3217-3228, 2023
Alaf, M. 2023. The SnO2 nanotube with CNT core structure (SnO2@void@CNT) and graphene composite electrode for Li-ion batteries. THERMAL SCIENCE , vol.27, no.4B , 3217-3228.
Alaf, M., (2023). The SnO2 nanotube with CNT core structure (SnO2@void@CNT) and graphene composite electrode for Li-ion batteries. THERMAL SCIENCE , vol.27, no.4B, 3217-3228.
Alaf, MİRAÇ. "The SnO2 nanotube with CNT core structure (SnO2@void@CNT) and graphene composite electrode for Li-ion batteries," THERMAL SCIENCE , vol.27, no.4B, 3217-3228, 2023
Alaf, MİRAÇ. "The SnO2 nanotube with CNT core structure (SnO2@void@CNT) and graphene composite electrode for Li-ion batteries." THERMAL SCIENCE , vol.27, no.4B, pp.3217-3228, 2023
Alaf, M. (2023) . "The SnO2 nanotube with CNT core structure (SnO2@void@CNT) and graphene composite electrode for Li-ion batteries." THERMAL SCIENCE , vol.27, no.4B, pp.3217-3228.
@article{article, author={MİRAÇ ALAF}, title={The SnO2 nanotube with CNT core structure (SnO2@void@CNT) and graphene composite electrode for Li-ion batteries}, journal={THERMAL SCIENCE}, year=2023, pages={3217-3228} }