Ab initio and density functional studies on the structure and vibrational spectra of 2-hydroxy-1,4-naphthoquinone-1-oxime derivatives |
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Authors: | Kaustubh A?Joshi Dilip R?Thube Sandhya Y?Rane Email author" target="_blank">Shridhar P?GejjiEmail author |
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Institution: | (1) Department of Chemistry, University of Pune, 411 007 Pune, India;(2) Department of Chemistry, New Arts, Commerce and Science College, Parner, Dist-Ahmednagar, 414302, India |
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Abstract: | Structure and vibrational frequencies of lawsoneoxime and its C3-substituted (R=CH3, NH2, Cl, NO2) derivatives in keto and nitrosophenol forms have been obtained employing the Hartree–Fock and density functional methods. Charge distributions in different conformers have been studied using the molecular electrostatic potential topography as a tool. For all these derivatives except for nitrolawsoneoxime the amphi conformer in the keto form is predicted to be of lowest energy, which can partly be attributed to hydrogen bonding through the oximino nitrogen. In the nitro derivative, however, the preference to form a six membered ring owing to O–H–O hydrogen-bonded interactions makes the anti conformer (keto) the stablest. Further one of the nitrosophenol conformers of nitrolawsoneoxime turns out to be very close in energy (0.21 kJ mol–1 higher) to this anti conformer. The consequences of hydrogen bonding on charge distribution and vibrational spectra are discussed. |
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Keywords: | Hartree– Fock – Density functional – Hydrogen bonding – Lawsoneoxime |
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