Dahmani, K. Et Al. 2021. Quantum chemical and molecular dynamic simulation studies for the identification of the extracted cinnamon essential oil constituent responsible for copper corrosion inhibition in acidified 3.0 wt% NaCl medium. INORGANIC CHEMISTRY COMMUNICATIONS , vol.124 .

Dahmani, K., Galai, M., Ouakki, M., Cherkaoui, M., Touir, R., Erkan, S., ... Kaya, S.(2021). Quantum chemical and molecular dynamic simulation studies for the identification of the extracted cinnamon essential oil constituent responsible for copper corrosion inhibition in acidified 3.0 wt% NaCl medium. INORGANIC CHEMISTRY COMMUNICATIONS , vol.124.

Dahmani, K. Et Al. "Quantum chemical and molecular dynamic simulation studies for the identification of the extracted cinnamon essential oil constituent responsible for copper corrosion inhibition in acidified 3.0 wt% NaCl medium," INORGANIC CHEMISTRY COMMUNICATIONS , vol.124, 2021

Dahmani, K. Et Al. "Quantum chemical and molecular dynamic simulation studies for the identification of the extracted cinnamon essential oil constituent responsible for copper corrosion inhibition in acidified 3.0 wt% NaCl medium." INORGANIC CHEMISTRY COMMUNICATIONS , vol.124, 2021

Dahmani, K. Et Al. (2021) . "Quantum chemical and molecular dynamic simulation studies for the identification of the extracted cinnamon essential oil constituent responsible for copper corrosion inhibition in acidified 3.0 wt% NaCl medium." INORGANIC CHEMISTRY COMMUNICATIONS , vol.124.

@article{article, author={K. Dahmani Et Al. }, title={Quantum chemical and molecular dynamic simulation studies for the identification of the extracted cinnamon essential oil constituent responsible for copper corrosion inhibition in acidified 3.0 wt% NaCl medium}, journal={INORGANIC CHEMISTRY COMMUNICATIONS}, year=2021}