E. Coşkun Et Al. , "Nanowire geometry effects on devices and transport mechanisms: SnS2/SiNW heterojunction," JOURNAL OF MATERIALS SCIENCE , vol.58, pp.15132-15143, 2023
Coşkun, E. Et Al. 2023. Nanowire geometry effects on devices and transport mechanisms: SnS2/SiNW heterojunction. JOURNAL OF MATERIALS SCIENCE , vol.58 , 15132-15143.
Coşkun, E., Emir, C., Terlemezoglu, M., & Parlak, M., (2023). Nanowire geometry effects on devices and transport mechanisms: SnS2/SiNW heterojunction. JOURNAL OF MATERIALS SCIENCE , vol.58, 15132-15143.
Coşkun, EMRE Et Al. "Nanowire geometry effects on devices and transport mechanisms: SnS2/SiNW heterojunction," JOURNAL OF MATERIALS SCIENCE , vol.58, 15132-15143, 2023
Coşkun, EMRE Et Al. "Nanowire geometry effects on devices and transport mechanisms: SnS2/SiNW heterojunction." JOURNAL OF MATERIALS SCIENCE , vol.58, pp.15132-15143, 2023
Coşkun, E. Et Al. (2023) . "Nanowire geometry effects on devices and transport mechanisms: SnS2/SiNW heterojunction." JOURNAL OF MATERIALS SCIENCE , vol.58, pp.15132-15143.
@article{article, author={EMRE COŞKUN Et Al. }, title={Nanowire geometry effects on devices and transport mechanisms: SnS2/SiNW heterojunction}, journal={JOURNAL OF MATERIALS SCIENCE}, year=2023, pages={15132-15143} }