El Hadki, A. Et Al. 2021. Removal of oxytetracycline by graphene oxide and Boron-doped reduced graphene oxide: A combined density function Theory, molecular dynamics simulation and experimental study. FLATCHEM , vol.27 .

El Hadki, A., ALTUNTAŞ, K., El Hadki, H., ÜSTÜNDAĞ, C. B., Kabbaj, O. K., Dahchour, A., ... Komiha, N.(2021). Removal of oxytetracycline by graphene oxide and Boron-doped reduced graphene oxide: A combined density function Theory, molecular dynamics simulation and experimental study. FLATCHEM , vol.27.

El Hadki, Ahmed Et Al. "Removal of oxytetracycline by graphene oxide and Boron-doped reduced graphene oxide: A combined density function Theory, molecular dynamics simulation and experimental study," FLATCHEM , vol.27, 2021

El Hadki, Ahmed E. Et Al. "Removal of oxytetracycline by graphene oxide and Boron-doped reduced graphene oxide: A combined density function Theory, molecular dynamics simulation and experimental study." FLATCHEM , vol.27, 2021

El Hadki, A. Et Al. (2021) . "Removal of oxytetracycline by graphene oxide and Boron-doped reduced graphene oxide: A combined density function Theory, molecular dynamics simulation and experimental study." FLATCHEM , vol.27.

@article{article, author={Ahmed El Hadki Et Al. }, title={Removal of oxytetracycline by graphene oxide and Boron-doped reduced graphene oxide: A combined density function Theory, molecular dynamics simulation and experimental study}, journal={FLATCHEM}, year=2021}