F. Sarcan Et Al. , "Ultraviolet-Ozone Treatment: An Effective Method for Fine-Tuning Optical and Electrical Properties of Suspended and Substrate-Supported MoS2," NANOMATERIALS , vol.13, no.23, 2023
Sarcan, F. Et Al. 2023. Ultraviolet-Ozone Treatment: An Effective Method for Fine-Tuning Optical and Electrical Properties of Suspended and Substrate-Supported MoS2. NANOMATERIALS , vol.13, no.23 .
Sarcan, F., Armstrong, A. J., Bostan, Y. K., Kus, E., Mckenna, K. P., Erol, A., ... Wang, Y.(2023). Ultraviolet-Ozone Treatment: An Effective Method for Fine-Tuning Optical and Electrical Properties of Suspended and Substrate-Supported MoS2. NANOMATERIALS , vol.13, no.23.
Sarcan, Fahrettin Et Al. "Ultraviolet-Ozone Treatment: An Effective Method for Fine-Tuning Optical and Electrical Properties of Suspended and Substrate-Supported MoS2," NANOMATERIALS , vol.13, no.23, 2023
Sarcan, Fahrettin Et Al. "Ultraviolet-Ozone Treatment: An Effective Method for Fine-Tuning Optical and Electrical Properties of Suspended and Substrate-Supported MoS2." NANOMATERIALS , vol.13, no.23, 2023
Sarcan, F. Et Al. (2023) . "Ultraviolet-Ozone Treatment: An Effective Method for Fine-Tuning Optical and Electrical Properties of Suspended and Substrate-Supported MoS2." NANOMATERIALS , vol.13, no.23.
@article{article, author={Fahrettin SARCAN Et Al. }, title={Ultraviolet-Ozone Treatment: An Effective Method for Fine-Tuning Optical and Electrical Properties of Suspended and Substrate-Supported MoS2}, journal={NANOMATERIALS}, year=2023}