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FT‐IR and FT‐Raman spectra and ab initio calculations of 3‐{[(2‐hydroxyphenyl) methylene]amino}‐2‐phenylquinazolin‐4(3H)‐one
Author(s) -
Yohannan Panicker C.,
Varghese Hema Tresa,
Ambujakshan K.R.,
Mathew Samuel,
Ganguli Subarna,
Nanda Ashis Kumar,
Alsenoy Christian Van
Publication year - 2009
Publication title -
journal of raman spectroscopy
Language(s) - English
Resource type - Journals
SCImago Journal Rank - 0.748
H-Index - 110
eISSN - 1097-4555
pISSN - 0377-0486
DOI - 10.1002/jrs.2276
Subject(s) - hyperpolarizability , raman spectroscopy , chemistry , methylene , infrared , resonance (particle physics) , fourier transform , ab initio , normal mode , spectral line , analytical chemistry (journal) , molecular vibration , infrared spectroscopy , fourier transform infrared spectroscopy , ab initio quantum chemistry methods , nuclear magnetic resonance , computational chemistry , molecule , atomic physics , organic chemistry , optics , vibration , physics , quantum mechanics , astronomy , polarizability
Fourier transform infrared (FT‐IR) and Fourier transform (FT) Raman spectra of 3‐{[(2‐hydroxyphenyl)methylene]amino}‐2‐phenylquinazolin‐4(3H)‐one were recorded and analyzed. The vibrational wavenumbers of the title compound were computed using HF/6‐31G* and 6‐311G* basis sets and compared with experimental data. The assignments of the normal modes are done by potential energy distribution (PED)calculations. The prepared compound was identified by nuclear magnetic resonance (NMR) and mass spectra. Optimized geometrical parameters of the title compound are in agreement with reported structures. Shortening of CN bond lengths reveal the effect of resonance. The simultaneous IR and Raman activations of the CO stretching mode shows a charge transfer interaction through a π‐conjugated path. The first hyperpolarizability, infrared intensities and Raman activities are reported. The phenyl CC stretching modes are equally active as strong bands in both IR and Raman spectra, which are responsible for hyperpolarizability enhancement leading to nonlinear optical activity. Copyright © 2009 John Wiley & Sons, Ltd.

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