A. Khurshid Et Al. , "Experimental and Hirshfeld Surface Investigations for Unexpected Aminophenazone Cocrystal Formation under Thiourea Reaction Conditions via Possible Enamine Assisted Rearrangement," CRYSTALS , vol.12, no.5, 2022
Khurshid, A. Et Al. 2022. Experimental and Hirshfeld Surface Investigations for Unexpected Aminophenazone Cocrystal Formation under Thiourea Reaction Conditions via Possible Enamine Assisted Rearrangement. CRYSTALS , vol.12, no.5 .
Khurshid, A., Saeed, A., HÖKELEK, T., Taslim, U., Irfan, M., Khan, S. U., ... Iqbal, A.(2022). Experimental and Hirshfeld Surface Investigations for Unexpected Aminophenazone Cocrystal Formation under Thiourea Reaction Conditions via Possible Enamine Assisted Rearrangement. CRYSTALS , vol.12, no.5.
Khurshid, Asma Et Al. "Experimental and Hirshfeld Surface Investigations for Unexpected Aminophenazone Cocrystal Formation under Thiourea Reaction Conditions via Possible Enamine Assisted Rearrangement," CRYSTALS , vol.12, no.5, 2022
Khurshid, Asma Et Al. "Experimental and Hirshfeld Surface Investigations for Unexpected Aminophenazone Cocrystal Formation under Thiourea Reaction Conditions via Possible Enamine Assisted Rearrangement." CRYSTALS , vol.12, no.5, 2022
Khurshid, A. Et Al. (2022) . "Experimental and Hirshfeld Surface Investigations for Unexpected Aminophenazone Cocrystal Formation under Thiourea Reaction Conditions via Possible Enamine Assisted Rearrangement." CRYSTALS , vol.12, no.5.
@article{article, author={Asma Khurshid Et Al. }, title={Experimental and Hirshfeld Surface Investigations for Unexpected Aminophenazone Cocrystal Formation under Thiourea Reaction Conditions via Possible Enamine Assisted Rearrangement}, journal={CRYSTALS}, year=2022}