B. Unlu Et Al. , "Simultaneous Crystallization and Strain Induction Enable Light-Emitting Germanium Nano/Microbridges for Infrared Lasers," ACS Applied Nano Materials , vol.5, no.4, pp.4700-4709, 2022
Unlu, B. Et Al. 2022. Simultaneous Crystallization and Strain Induction Enable Light-Emitting Germanium Nano/Microbridges for Infrared Lasers. ACS Applied Nano Materials , vol.5, no.4 , 4700-4709.
Unlu, B., Ghasemi, M., YERCİ, S., & Boztuğ Yerci, Ç. H., (2022). Simultaneous Crystallization and Strain Induction Enable Light-Emitting Germanium Nano/Microbridges for Infrared Lasers. ACS Applied Nano Materials , vol.5, no.4, 4700-4709.
Unlu, Buse Et Al. "Simultaneous Crystallization and Strain Induction Enable Light-Emitting Germanium Nano/Microbridges for Infrared Lasers," ACS Applied Nano Materials , vol.5, no.4, 4700-4709, 2022
Unlu, Buse Et Al. "Simultaneous Crystallization and Strain Induction Enable Light-Emitting Germanium Nano/Microbridges for Infrared Lasers." ACS Applied Nano Materials , vol.5, no.4, pp.4700-4709, 2022
Unlu, B. Et Al. (2022) . "Simultaneous Crystallization and Strain Induction Enable Light-Emitting Germanium Nano/Microbridges for Infrared Lasers." ACS Applied Nano Materials , vol.5, no.4, pp.4700-4709.
@article{article, author={Buse Unlu Et Al. }, title={Simultaneous Crystallization and Strain Induction Enable Light-Emitting Germanium Nano/Microbridges for Infrared Lasers}, journal={ACS Applied Nano Materials}, year=2022, pages={4700-4709} }