Atıf Formatları
An investigation on CuO thin films grown by ultrasonic spray pyrolysis at different substrate temperatures: Structural, optical and supercapacitor electrode characterizations
  • IEEE
  • ACM
  • APA
  • Chicago
  • MLA
  • Harvard
  • BibTeX

H. GÜNEY Et Al. , "An investigation on CuO thin films grown by ultrasonic spray pyrolysis at different substrate temperatures: Structural, optical and supercapacitor electrode characterizations," OPTICAL MATERIALS , vol.132, 2022

GÜNEY, H. Et Al. 2022. An investigation on CuO thin films grown by ultrasonic spray pyrolysis at different substrate temperatures: Structural, optical and supercapacitor electrode characterizations. OPTICAL MATERIALS , vol.132 .

GÜNEY, H., İSKENDEROĞLU, D., Güldüren, M. E., Demi̇r, K., & Karadeniz, S. M., (2022). An investigation on CuO thin films grown by ultrasonic spray pyrolysis at different substrate temperatures: Structural, optical and supercapacitor electrode characterizations. OPTICAL MATERIALS , vol.132.

GÜNEY, Harun Et Al. "An investigation on CuO thin films grown by ultrasonic spray pyrolysis at different substrate temperatures: Structural, optical and supercapacitor electrode characterizations," OPTICAL MATERIALS , vol.132, 2022

GÜNEY, Harun Et Al. "An investigation on CuO thin films grown by ultrasonic spray pyrolysis at different substrate temperatures: Structural, optical and supercapacitor electrode characterizations." OPTICAL MATERIALS , vol.132, 2022

GÜNEY, H. Et Al. (2022) . "An investigation on CuO thin films grown by ultrasonic spray pyrolysis at different substrate temperatures: Structural, optical and supercapacitor electrode characterizations." OPTICAL MATERIALS , vol.132.

@article{article, author={Harun GÜNEY Et Al. }, title={An investigation on CuO thin films grown by ultrasonic spray pyrolysis at different substrate temperatures: Structural, optical and supercapacitor electrode characterizations}, journal={OPTICAL MATERIALS}, year=2022}