C. ÖZDOĞAN And H. KÖKTEN, "An approach for quantum capacitance of graphene, carbon nanotube, silicene and hexagonal boron nitride nanoscale supercapacitors by non-equilibrium Green's function method," FLATCHEM , vol.31, 2022
ÖZDOĞAN, C. And KÖKTEN, H. 2022. An approach for quantum capacitance of graphene, carbon nanotube, silicene and hexagonal boron nitride nanoscale supercapacitors by non-equilibrium Green's function method. FLATCHEM , vol.31 .
ÖZDOĞAN, C., & KÖKTEN, H., (2022). An approach for quantum capacitance of graphene, carbon nanotube, silicene and hexagonal boron nitride nanoscale supercapacitors by non-equilibrium Green's function method. FLATCHEM , vol.31.
ÖZDOĞAN, CEM, And HATİCE KÖKTEN. "An approach for quantum capacitance of graphene, carbon nanotube, silicene and hexagonal boron nitride nanoscale supercapacitors by non-equilibrium Green's function method," FLATCHEM , vol.31, 2022
ÖZDOĞAN, CEM And KÖKTEN, HATİCE. "An approach for quantum capacitance of graphene, carbon nanotube, silicene and hexagonal boron nitride nanoscale supercapacitors by non-equilibrium Green's function method." FLATCHEM , vol.31, 2022
ÖZDOĞAN, C. And KÖKTEN, H. (2022) . "An approach for quantum capacitance of graphene, carbon nanotube, silicene and hexagonal boron nitride nanoscale supercapacitors by non-equilibrium Green's function method." FLATCHEM , vol.31.
@article{article, author={CEM ÖZDOĞAN And author={HATİCE KÖKTEN}, title={An approach for quantum capacitance of graphene, carbon nanotube, silicene and hexagonal boron nitride nanoscale supercapacitors by non-equilibrium Green's function method}, journal={FLATCHEM}, year=2022}