EKİM, U. Et Al. 2023. Glass-based LED system for indoor horticulture: enhanced plant growth through Sm3+ and Tm3+ co-doped luminescent glasses. Physical Chemistry Chemical Physics , vol.25, no.34 , 23150-23163.

EKİM, U., İlter, E., Özan, E., Temürhan, Y., ÇELİKBİLEK ERSUNDU, M., & ERSUNDU, A. E., (2023). Glass-based LED system for indoor horticulture: enhanced plant growth through Sm3+ and Tm3+ co-doped luminescent glasses. Physical Chemistry Chemical Physics , vol.25, no.34, 23150-23163.

EKİM, Utku Et Al. "Glass-based LED system for indoor horticulture: enhanced plant growth through Sm3+ and Tm3+ co-doped luminescent glasses," Physical Chemistry Chemical Physics , vol.25, no.34, 23150-23163, 2023

EKİM, Utku Et Al. "Glass-based LED system for indoor horticulture: enhanced plant growth through Sm3+ and Tm3+ co-doped luminescent glasses." Physical Chemistry Chemical Physics , vol.25, no.34, pp.23150-23163, 2023

EKİM, U. Et Al. (2023) . "Glass-based LED system for indoor horticulture: enhanced plant growth through Sm3+ and Tm3+ co-doped luminescent glasses." Physical Chemistry Chemical Physics , vol.25, no.34, pp.23150-23163.

@article{article, author={Utku EKİM Et Al. }, title={Glass-based LED system for indoor horticulture: enhanced plant growth through Sm3+ and Tm3+ co-doped luminescent glasses}, journal={Physical Chemistry Chemical Physics}, year=2023, pages={23150-23163} }