Structure and Spectral Properties of Thianthrene and Its Benzoyl-Containing Derivatives
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Karagandy University of the name of acad. E.A. Buketov
Abstract
The IR absorption spectra of the recently synthesized series of benzoyl-containing thianthrene derivatives
were studied in the context of their structural identification. Geometry optimizitation of the ground singlet
state by density functional theory (DFT) calculations with the gradient and Hessian search were performed
for thianthrene molecule in the framework of the C2v symmetry restriction. The excited singlet and triplet
states of thianthrene were found to be distorted along the b3u vibrational mode of the D2h point group, as well
as the ground state, which leads to the non-planar batterfly-like structure (C2v). But the excited states require
additional symmetry reduction; they are closer to planarity but have no symmetry elements. Optimized
ground states structure for the thianthrene-benzoyle molecule and its four derivatives with fluoro-substituents
and different substitution positions were analyzed through complete assignment of all their vibrational modes
and comparison with experimental infrared absorption spectra. A good agreement between experimental data
and DFT calculated IR spectra provides additional structural support to results of the X-ray diffraction analysis
of all synthesized compounds. The Hirshfeld surfaces analysis of the crystalline 3-fluorobenzoylthianthrene
(T3F) was performed in order to analyze intermolecular interactions in T3F crystal. It indicates
the presence of weak CH…F, CH…S and CH…O intermolecular contacts, stabilizing the crystal structure of
T3F. The CH…O interactions appear in the IR spectrum of T3F crystal as two vibrational modes with frequencies
3084 and 3078 cm–1. The intermolecular interactions CH…F and CH…S do not affect the IR spectrum
of T3F.
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Citation
Structure and Spectral Properties of Thianthrene and Its Benzoyl-Containing Derivatives/Minaeva V.A. [et al.] // Eurasian Journal of Chemistry. – 2023. - Special Issue “Quantum Chemistry and Quantum Nanotechnologies of Materials”. - № 3(111). – pp.89-103.