Erbasan, A. Et Al. 2024. Insights into Reaction Mechanisms in Liquid Metals from Density Functional Theory: CH4 Pyrolysis in BiNiX (X = Cu, Al) Molten Metals as a Case Study. ACS Applied Energy Materials , vol.7, no.8 , 3220-3233.

Erbasan, A., TOFFOLİ, H., Toffoli, D., GÖKALP, İ., KARDAŞ, G., & ÇELİK, G., (2024). Insights into Reaction Mechanisms in Liquid Metals from Density Functional Theory: CH4 Pyrolysis in BiNiX (X = Cu, Al) Molten Metals as a Case Study. ACS Applied Energy Materials , vol.7, no.8, 3220-3233.

Erbasan, Arda Et Al. "Insights into Reaction Mechanisms in Liquid Metals from Density Functional Theory: CH4 Pyrolysis in BiNiX (X = Cu, Al) Molten Metals as a Case Study," ACS Applied Energy Materials , vol.7, no.8, 3220-3233, 2024

Erbasan, Arda Et Al. "Insights into Reaction Mechanisms in Liquid Metals from Density Functional Theory: CH4 Pyrolysis in BiNiX (X = Cu, Al) Molten Metals as a Case Study." ACS Applied Energy Materials , vol.7, no.8, pp.3220-3233, 2024

Erbasan, A. Et Al. (2024) . "Insights into Reaction Mechanisms in Liquid Metals from Density Functional Theory: CH4 Pyrolysis in BiNiX (X = Cu, Al) Molten Metals as a Case Study." ACS Applied Energy Materials , vol.7, no.8, pp.3220-3233.

@article{article, author={Arda Erbasan Et Al. }, title={Insights into Reaction Mechanisms in Liquid Metals from Density Functional Theory: CH4 Pyrolysis in BiNiX (X = Cu, Al) Molten Metals as a Case Study}, journal={ACS Applied Energy Materials}, year=2024, pages={3220-3233} }