Singh, A. Et Al. 2022. Inhibitive performance of novel/eco-friendly pyrimidine derivative for Q235 steel protection in 15% HCl under hydrodynamic condition: Combination of experimental, surface and computational approach. MATERIALS TODAY COMMUNICATIONS , vol.32 .

Singh, A., Ansari, K. R., Lin, Y., Ali, I. H., KAYA, S., & El Ibrahimi, B., (2022). Inhibitive performance of novel/eco-friendly pyrimidine derivative for Q235 steel protection in 15% HCl under hydrodynamic condition: Combination of experimental, surface and computational approach. MATERIALS TODAY COMMUNICATIONS , vol.32.

Singh, Ambrish Et Al. "Inhibitive performance of novel/eco-friendly pyrimidine derivative for Q235 steel protection in 15% HCl under hydrodynamic condition: Combination of experimental, surface and computational approach," MATERIALS TODAY COMMUNICATIONS , vol.32, 2022

Singh, Ambrish Et Al. "Inhibitive performance of novel/eco-friendly pyrimidine derivative for Q235 steel protection in 15% HCl under hydrodynamic condition: Combination of experimental, surface and computational approach." MATERIALS TODAY COMMUNICATIONS , vol.32, 2022

Singh, A. Et Al. (2022) . "Inhibitive performance of novel/eco-friendly pyrimidine derivative for Q235 steel protection in 15% HCl under hydrodynamic condition: Combination of experimental, surface and computational approach." MATERIALS TODAY COMMUNICATIONS , vol.32.

@article{article, author={Ambrish Singh Et Al. }, title={Inhibitive performance of novel/eco-friendly pyrimidine derivative for Q235 steel protection in 15% HCl under hydrodynamic condition: Combination of experimental, surface and computational approach}, journal={MATERIALS TODAY COMMUNICATIONS}, year=2022}