Atıf Formatları
Improving the performance of the self-powered polymer-based UV/Vis photodetectors via carbon fibers
  • IEEE
  • ACM
  • APA
  • Chicago
  • MLA
  • Harvard
  • BibTeX

R. S. Havigh Et Al. , "Improving the performance of the self-powered polymer-based UV/Vis photodetectors via carbon fibers," PHYSICA SCRIPTA , vol.98, no.1, 2023

Havigh, R. S. Et Al. 2023. Improving the performance of the self-powered polymer-based UV/Vis photodetectors via carbon fibers. PHYSICA SCRIPTA , vol.98, no.1 .

Havigh, R. S., Chenari, H. M., YILDIRIM, F., ORHAN, Z., & AYDOĞAN, Ş., (2023). Improving the performance of the self-powered polymer-based UV/Vis photodetectors via carbon fibers. PHYSICA SCRIPTA , vol.98, no.1.

Havigh, Roya Et Al. "Improving the performance of the self-powered polymer-based UV/Vis photodetectors via carbon fibers," PHYSICA SCRIPTA , vol.98, no.1, 2023

Havigh, Roya S. Et Al. "Improving the performance of the self-powered polymer-based UV/Vis photodetectors via carbon fibers." PHYSICA SCRIPTA , vol.98, no.1, 2023

Havigh, R. S. Et Al. (2023) . "Improving the performance of the self-powered polymer-based UV/Vis photodetectors via carbon fibers." PHYSICA SCRIPTA , vol.98, no.1.

@article{article, author={Roya Shokrani Havigh Et Al. }, title={Improving the performance of the self-powered polymer-based UV/Vis photodetectors via carbon fibers}, journal={PHYSICA SCRIPTA}, year=2023}