期刊
JOURNAL OF QUANTITATIVE SPECTROSCOPY & RADIATIVE TRANSFER
卷 283, 期 -, 页码 -出版社
PERGAMON-ELSEVIER SCIENCE LTD
DOI: 10.1016/j.jqsrt.2022.108159
关键词
Benzonitrile; Synchrotron radiation; Normal coordinate analysis; Vacuum ultraviolet spectra; TDDFT; Potential energy curves
A spectroscopic study on benzonitrile was conducted to investigate its electronic and vibrational properties. The results revealed rich vibrational spectra and weak Rydberg transitions. The excited electronic states were classified and explained using quantum chemical calculations. Additionally, the equilibrium geometry and ground state vibrational modes were predicted using DFT methodology.
A spectroscopic study on benzonitrile has been carried out by recording photoabsorption spectra in the 36,0 0 0-90,0 0 0 cm(-1) (4.5-11 eV) region using the synchrotron light source Indus 1 and infrared spectra in the 50 0-40 0 0 cm(-1) region using a Fourier transform infrared spectrometer. The observed electronic spectrum encompasses rich vibrational spectra corresponding to the pi ->pi* valence transition in the 36,0 0 0-62,0 0 0 cm(-1) region. Further, the 620 0 0-90 0 0 0 cm(-1) region predominantly comprises of weak Rydberg transitions of the ns and np type riding on a broad continuum. Vertical excited states calculated using the TDDFT methodology give new insights into the interpretation of the valence and Rydberg transitions by corelating them with the observed spectral peaks and shifted benzene transitions. Excited electronic states of benzonitrile are classified as local excitations and /or charge transfer excitations from the percentage contributions predicted with the aid of quantum chemical calculations. A reinvestigation of the titled compound with quantum chemical calculations using DFT methodology predict the equilibrium geometry and ground state vibrational modes, while normal coordinate analysis establishes a good agreement with the observed molecular vibrations. Theoretically generated potential energy curves of low lying excited states provide additional insights into UV spectral features, photodissociation dynamics for formation of C5H5 center dot & nbsp;and CN center dot radicals and could establish the identity of the hidden (dark) state postulated in an earlier work. For the first time, a comprehensive study of benzonitrile in the IR and UV-VUV regions is summarized in this paper. (C)& nbsp;2022 Elsevier Ltd. All rights reserved.
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