A. Can Et Al. , "Indenofluorenes for organic optoelectronics: the dance of fused five- and six-membered rings enabling structural versatility," Journal of Materials Chemistry C , vol.10, no.22, pp.8496-8535, 2022
Can, A. Et Al. 2022. Indenofluorenes for organic optoelectronics: the dance of fused five- and six-membered rings enabling structural versatility. Journal of Materials Chemistry C , vol.10, no.22 , 8496-8535.
Can, A., Facchetti, A., & USTA, H., (2022). Indenofluorenes for organic optoelectronics: the dance of fused five- and six-membered rings enabling structural versatility. Journal of Materials Chemistry C , vol.10, no.22, 8496-8535.
Can, Ayse, Antonio Facchetti, And HAKAN USTA. "Indenofluorenes for organic optoelectronics: the dance of fused five- and six-membered rings enabling structural versatility," Journal of Materials Chemistry C , vol.10, no.22, 8496-8535, 2022
Can, Ayse Et Al. "Indenofluorenes for organic optoelectronics: the dance of fused five- and six-membered rings enabling structural versatility." Journal of Materials Chemistry C , vol.10, no.22, pp.8496-8535, 2022
Can, A. Facchetti, A. And USTA, H. (2022) . "Indenofluorenes for organic optoelectronics: the dance of fused five- and six-membered rings enabling structural versatility." Journal of Materials Chemistry C , vol.10, no.22, pp.8496-8535.
@article{article, author={Ayse Can Et Al. }, title={Indenofluorenes for organic optoelectronics: the dance of fused five- and six-membered rings enabling structural versatility}, journal={Journal of Materials Chemistry C}, year=2022, pages={8496-8535} }