İ. Gunes, "Enhancing π-SnS thin films and fabrication of p-SnS/n-Si heterostructures through flow rate control in ultrasonic spray pyrolysis for improved photovoltaic performance," APPLIED PHYSICS A: MATERIALS SCIENCE AND PROCESSING , vol.130, pp.251, 2024
Gunes, İ. 2024. Enhancing π-SnS thin films and fabrication of p-SnS/n-Si heterostructures through flow rate control in ultrasonic spray pyrolysis for improved photovoltaic performance. APPLIED PHYSICS A: MATERIALS SCIENCE AND PROCESSING , vol.130 , 251.
Gunes, İ., (2024). Enhancing π-SnS thin films and fabrication of p-SnS/n-Si heterostructures through flow rate control in ultrasonic spray pyrolysis for improved photovoltaic performance. APPLIED PHYSICS A: MATERIALS SCIENCE AND PROCESSING , vol.130, 251.
Gunes, İBRAHİM. "Enhancing π-SnS thin films and fabrication of p-SnS/n-Si heterostructures through flow rate control in ultrasonic spray pyrolysis for improved photovoltaic performance," APPLIED PHYSICS A: MATERIALS SCIENCE AND PROCESSING , vol.130, 251, 2024
Gunes, İBRAHİM. "Enhancing π-SnS thin films and fabrication of p-SnS/n-Si heterostructures through flow rate control in ultrasonic spray pyrolysis for improved photovoltaic performance." APPLIED PHYSICS A: MATERIALS SCIENCE AND PROCESSING , vol.130, pp.251, 2024
Gunes, İ. (2024) . "Enhancing π-SnS thin films and fabrication of p-SnS/n-Si heterostructures through flow rate control in ultrasonic spray pyrolysis for improved photovoltaic performance." APPLIED PHYSICS A: MATERIALS SCIENCE AND PROCESSING , vol.130, p.251.
@article{article, author={İBRAHİM GÜNEŞ}, title={Enhancing π-SnS thin films and fabrication of p-SnS/n-Si heterostructures through flow rate control in ultrasonic spray pyrolysis for improved photovoltaic performance}, journal={APPLIED PHYSICS A: MATERIALS SCIENCE AND PROCESSING}, year=2024, pages={251} }