Mehmood, H. Et Al. 2022. Physical device simulation of dopant-free asymmetric silicon heterojunction solar cell featuring tungsten oxide as a hole-selective layer with ultrathin silicon oxide passivation layer. RENEWABLE ENERGY , vol.183 , 188-201.

Mehmood, H., Nasser, H., Zaidi, S. M. H., Tauqeer, T., & TURAN, R., (2022). Physical device simulation of dopant-free asymmetric silicon heterojunction solar cell featuring tungsten oxide as a hole-selective layer with ultrathin silicon oxide passivation layer. RENEWABLE ENERGY , vol.183, 188-201.

Mehmood, Haris Et Al. "Physical device simulation of dopant-free asymmetric silicon heterojunction solar cell featuring tungsten oxide as a hole-selective layer with ultrathin silicon oxide passivation layer," RENEWABLE ENERGY , vol.183, 188-201, 2022

Mehmood, Haris Et Al. "Physical device simulation of dopant-free asymmetric silicon heterojunction solar cell featuring tungsten oxide as a hole-selective layer with ultrathin silicon oxide passivation layer." RENEWABLE ENERGY , vol.183, pp.188-201, 2022

Mehmood, H. Et Al. (2022) . "Physical device simulation of dopant-free asymmetric silicon heterojunction solar cell featuring tungsten oxide as a hole-selective layer with ultrathin silicon oxide passivation layer." RENEWABLE ENERGY , vol.183, pp.188-201.

@article{article, author={Haris Mehmood Et Al. }, title={Physical device simulation of dopant-free asymmetric silicon heterojunction solar cell featuring tungsten oxide as a hole-selective layer with ultrathin silicon oxide passivation layer}, journal={RENEWABLE ENERGY}, year=2022, pages={188-201} }