Z. Dalkilic And A. Kalkan Burat, "Using commercially available cost-effective Zn(II) phthalocyanine as hole-transporting material for inverted type perovskite solar cells and investigation of dopant effect," SYNTHETIC METALS , vol.282, 2021
Dalkilic, Z. And Kalkan Burat, A. 2021. Using commercially available cost-effective Zn(II) phthalocyanine as hole-transporting material for inverted type perovskite solar cells and investigation of dopant effect. SYNTHETIC METALS , vol.282 .
Dalkilic, Z., & Kalkan Burat, A., (2021). Using commercially available cost-effective Zn(II) phthalocyanine as hole-transporting material for inverted type perovskite solar cells and investigation of dopant effect. SYNTHETIC METALS , vol.282.
Dalkilic, Zeynep, And Ayfer Kalkan Burat. "Using commercially available cost-effective Zn(II) phthalocyanine as hole-transporting material for inverted type perovskite solar cells and investigation of dopant effect," SYNTHETIC METALS , vol.282, 2021
Dalkilic, Zeynep And Kalkan Burat, Ayfer K. . "Using commercially available cost-effective Zn(II) phthalocyanine as hole-transporting material for inverted type perovskite solar cells and investigation of dopant effect." SYNTHETIC METALS , vol.282, 2021
Dalkilic, Z. And Kalkan Burat, A. (2021) . "Using commercially available cost-effective Zn(II) phthalocyanine as hole-transporting material for inverted type perovskite solar cells and investigation of dopant effect." SYNTHETIC METALS , vol.282.
@article{article, author={Zeynep Dalkilic And author={Ayfer Kalkan Burat}, title={Using commercially available cost-effective Zn(II) phthalocyanine as hole-transporting material for inverted type perovskite solar cells and investigation of dopant effect}, journal={SYNTHETIC METALS}, year=2021}