S. SEL Et Al. , "Synthesis and characterization of nano-V2O5 by flame spray pyrolysis, and its cathodic performance in Li-ion rechargeable batteries," APPLIED SURFACE SCIENCE , vol.318, pp.150-156, 2014
SEL, S. Et Al. 2014. Synthesis and characterization of nano-V2O5 by flame spray pyrolysis, and its cathodic performance in Li-ion rechargeable batteries. APPLIED SURFACE SCIENCE , vol.318 , 150-156.
SEL, S., DUYGULU, O., Kadiroglu, U., & MACHIN, N. E., (2014). Synthesis and characterization of nano-V2O5 by flame spray pyrolysis, and its cathodic performance in Li-ion rechargeable batteries. APPLIED SURFACE SCIENCE , vol.318, 150-156.
SEL, Sinem Et Al. "Synthesis and characterization of nano-V2O5 by flame spray pyrolysis, and its cathodic performance in Li-ion rechargeable batteries," APPLIED SURFACE SCIENCE , vol.318, 150-156, 2014
SEL, Sinem Et Al. "Synthesis and characterization of nano-V2O5 by flame spray pyrolysis, and its cathodic performance in Li-ion rechargeable batteries." APPLIED SURFACE SCIENCE , vol.318, pp.150-156, 2014
SEL, S. Et Al. (2014) . "Synthesis and characterization of nano-V2O5 by flame spray pyrolysis, and its cathodic performance in Li-ion rechargeable batteries." APPLIED SURFACE SCIENCE , vol.318, pp.150-156.
@article{article, author={Sinem SEL Et Al. }, title={Synthesis and characterization of nano-V2O5 by flame spray pyrolysis, and its cathodic performance in Li-ion rechargeable batteries}, journal={APPLIED SURFACE SCIENCE}, year=2014, pages={150-156} }