A. Kaymaz And E. Baydilli, "The Role of Co/Zn-Doped Organic Interlayer on the Operating Performance of Schottky Devices as an Ionizing Radiation Sensor," IEEE Sensors Journal , vol.24, no.11, pp.17693-17700, 2024
Kaymaz, A. And Baydilli, E. 2024. The Role of Co/Zn-Doped Organic Interlayer on the Operating Performance of Schottky Devices as an Ionizing Radiation Sensor. IEEE Sensors Journal , vol.24, no.11 , 17693-17700.
Kaymaz, A., & Baydilli, E., (2024). The Role of Co/Zn-Doped Organic Interlayer on the Operating Performance of Schottky Devices as an Ionizing Radiation Sensor. IEEE Sensors Journal , vol.24, no.11, 17693-17700.
Kaymaz, Ahmet, And ESRA EVCİN BAYDİLLİ. "The Role of Co/Zn-Doped Organic Interlayer on the Operating Performance of Schottky Devices as an Ionizing Radiation Sensor," IEEE Sensors Journal , vol.24, no.11, 17693-17700, 2024
Kaymaz, Ahmet And Baydilli, ESRA E. . "The Role of Co/Zn-Doped Organic Interlayer on the Operating Performance of Schottky Devices as an Ionizing Radiation Sensor." IEEE Sensors Journal , vol.24, no.11, pp.17693-17700, 2024
Kaymaz, A. And Baydilli, E. (2024) . "The Role of Co/Zn-Doped Organic Interlayer on the Operating Performance of Schottky Devices as an Ionizing Radiation Sensor." IEEE Sensors Journal , vol.24, no.11, pp.17693-17700.
@article{article, author={Ahmet Kaymaz And author={ESRA EVCİN BAYDİLLİ}, title={The Role of Co/Zn-Doped Organic Interlayer on the Operating Performance of Schottky Devices as an Ionizing Radiation Sensor}, journal={IEEE Sensors Journal}, year=2024, pages={17693-17700} }