G. G. Celik Et Al. , "Triphenylamine substituted copper and zinc phthalocyanines as alternative hole-transporting materials for solution-processed perovskite solar cells," DALTON TRANSACTIONS , vol.51, no.24, pp.9385-9396, 2022
Celik, G. G. Et Al. 2022. Triphenylamine substituted copper and zinc phthalocyanines as alternative hole-transporting materials for solution-processed perovskite solar cells. DALTON TRANSACTIONS , vol.51, no.24 , 9385-9396.
Celik, G. G., ŞAHİN, A. N., Lafzi, F., SARAÇOĞLU, N., ALTINDAL, A., GÜREK, A. G., ... ATİLLA, D.(2022). Triphenylamine substituted copper and zinc phthalocyanines as alternative hole-transporting materials for solution-processed perovskite solar cells. DALTON TRANSACTIONS , vol.51, no.24, 9385-9396.
Celik, Gizem Et Al. "Triphenylamine substituted copper and zinc phthalocyanines as alternative hole-transporting materials for solution-processed perovskite solar cells," DALTON TRANSACTIONS , vol.51, no.24, 9385-9396, 2022
Celik, Gizem G. Et Al. "Triphenylamine substituted copper and zinc phthalocyanines as alternative hole-transporting materials for solution-processed perovskite solar cells." DALTON TRANSACTIONS , vol.51, no.24, pp.9385-9396, 2022
Celik, G. G. Et Al. (2022) . "Triphenylamine substituted copper and zinc phthalocyanines as alternative hole-transporting materials for solution-processed perovskite solar cells." DALTON TRANSACTIONS , vol.51, no.24, pp.9385-9396.
@article{article, author={Gizem Gumusgoz Celik Et Al. }, title={Triphenylamine substituted copper and zinc phthalocyanines as alternative hole-transporting materials for solution-processed perovskite solar cells}, journal={DALTON TRANSACTIONS}, year=2022, pages={9385-9396} }