Nasser, H. Et Al. 2022. Fourteen percent efficiency ultrathin silicon solar cells with improved infrared light management enabled by hole-selective transition metal oxide full-area rear passivating contacts. PROGRESS IN PHOTOVOLTAICS , vol.30, no.8 , 823-834.

Nasser, H., Borra, M. Z., Çiftpınar, E. H., Eldeeb, B., & Turan, R., (2022). Fourteen percent efficiency ultrathin silicon solar cells with improved infrared light management enabled by hole-selective transition metal oxide full-area rear passivating contacts. PROGRESS IN PHOTOVOLTAICS , vol.30, no.8, 823-834.

Nasser, Hisham Et Al. "Fourteen percent efficiency ultrathin silicon solar cells with improved infrared light management enabled by hole-selective transition metal oxide full-area rear passivating contacts," PROGRESS IN PHOTOVOLTAICS , vol.30, no.8, 823-834, 2022

Nasser, Hisham Et Al. "Fourteen percent efficiency ultrathin silicon solar cells with improved infrared light management enabled by hole-selective transition metal oxide full-area rear passivating contacts." PROGRESS IN PHOTOVOLTAICS , vol.30, no.8, pp.823-834, 2022

Nasser, H. Et Al. (2022) . "Fourteen percent efficiency ultrathin silicon solar cells with improved infrared light management enabled by hole-selective transition metal oxide full-area rear passivating contacts." PROGRESS IN PHOTOVOLTAICS , vol.30, no.8, pp.823-834.

@article{article, author={Hisham Nasser Et Al. }, title={Fourteen percent efficiency ultrathin silicon solar cells with improved infrared light management enabled by hole-selective transition metal oxide full-area rear passivating contacts}, journal={PROGRESS IN PHOTOVOLTAICS}, year=2022, pages={823-834} }