AI Article Synopsis
- The vibrational spectrum of pyridoxine was analyzed using experimental IR and Raman spectroscopy combined with density functional theory (DFT) methods, and assignments for the observed bands were proposed based on computational results.
- The study calculated potential energy distributions (PEDs) to assist in assigning vibrational frequencies and optimized geometrical parameters revealed that replacing OH groups with H atoms would lead to a molecule with Cs point group symmetry.
- Stability and bond strength were assessed using natural bond orbital analysis (NBO), showing charge transfer in the molecule, and electron density mapping provided insights into its reactivity and spatial features.
Article Abstract
Vibrational spectrum of pyridoxine has been investigated using experimental IR and Raman spectroscopic and density functional theory (DFT) methods. Vibrational assignments of the observed IR and Raman bands have been proposed in light of the results obtained from computations. In order to assign the observed IR and Raman frequencies the potential energy distributions (PEDs) have also been computed. Optimized geometrical parameters suggest that if the OH groups of the two methyl groups are replaced by H atoms the resulting molecule has Cs point group symmetry. To investigate molecular stability and bond strength we have used natural bond orbital analysis (NBO). Charge transfer occurs in the molecule have been shown by the calculated highest occupied molecular orbital-lowest unoccupied molecular orbital (HOMO-LUMO) energies. The mapping of electron density iso-surface with electrostatic potential (ESP), has been carried out to get the information about the size, shape, charge density distribution and site of chemical reactivity of the molecule.
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| http://dx.doi.org/10.1016/j.saa.2013.09.133 | DOI Listing |
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