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Self-powered ZrO2 nanofibers/n-Si photodetector with high on/off ratio for detecting very low optical signal
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F. Yıldırım Et Al. , "Self-powered ZrO2 nanofibers/n-Si photodetector with high on/off ratio for detecting very low optical signal," JOURNAL OF PHYSICS D-APPLIED PHYSICS , vol.54, no.47, 2021

Yıldırım, F. Et Al. 2021. Self-powered ZrO2 nanofibers/n-Si photodetector with high on/off ratio for detecting very low optical signal. JOURNAL OF PHYSICS D-APPLIED PHYSICS , vol.54, no.47 .

Yıldırım, F., Orhan, Z., Khalili, S., Chenari, H. M., & Aydogan, S., (2021). Self-powered ZrO2 nanofibers/n-Si photodetector with high on/off ratio for detecting very low optical signal. JOURNAL OF PHYSICS D-APPLIED PHYSICS , vol.54, no.47.

Yıldırım, Fatma Et Al. "Self-powered ZrO2 nanofibers/n-Si photodetector with high on/off ratio for detecting very low optical signal," JOURNAL OF PHYSICS D-APPLIED PHYSICS , vol.54, no.47, 2021

Yıldırım, Fatma Et Al. "Self-powered ZrO2 nanofibers/n-Si photodetector with high on/off ratio for detecting very low optical signal." JOURNAL OF PHYSICS D-APPLIED PHYSICS , vol.54, no.47, 2021

Yıldırım, F. Et Al. (2021) . "Self-powered ZrO2 nanofibers/n-Si photodetector with high on/off ratio for detecting very low optical signal." JOURNAL OF PHYSICS D-APPLIED PHYSICS , vol.54, no.47.

@article{article, author={Fatma YILDIRIM Et Al. }, title={Self-powered ZrO2 nanofibers/n-Si photodetector with high on/off ratio for detecting very low optical signal}, journal={JOURNAL OF PHYSICS D-APPLIED PHYSICS}, year=2021}