M. Ulusoy Et Al. , "The capacitance/conductance and surface state intensity characteristics of the Schottky structures with ruthenium dioxide-doped organic polymer interface," SYNTHETIC METALS , vol.292, pp.117243, 2023
Ulusoy, M. Et Al. 2023. The capacitance/conductance and surface state intensity characteristics of the Schottky structures with ruthenium dioxide-doped organic polymer interface. SYNTHETIC METALS , vol.292 , 117243.
Ulusoy, M., Badali, Y., Pirgholi-Givi, G., Azizian-Kalandaragh, Y., & Altındal, Ş., (2023). The capacitance/conductance and surface state intensity characteristics of the Schottky structures with ruthenium dioxide-doped organic polymer interface. SYNTHETIC METALS , vol.292, 117243.
Ulusoy, MURAT Et Al. "The capacitance/conductance and surface state intensity characteristics of the Schottky structures with ruthenium dioxide-doped organic polymer interface," SYNTHETIC METALS , vol.292, 117243, 2023
Ulusoy, MURAT Et Al. "The capacitance/conductance and surface state intensity characteristics of the Schottky structures with ruthenium dioxide-doped organic polymer interface." SYNTHETIC METALS , vol.292, pp.117243, 2023
Ulusoy, M. Et Al. (2023) . "The capacitance/conductance and surface state intensity characteristics of the Schottky structures with ruthenium dioxide-doped organic polymer interface." SYNTHETIC METALS , vol.292, p.117243.
@article{article, author={MURAT ULUSOY Et Al. }, title={The capacitance/conductance and surface state intensity characteristics of the Schottky structures with ruthenium dioxide-doped organic polymer interface}, journal={SYNTHETIC METALS}, year=2023, pages={117243} }