Structure and Spectral Properties of Thianthrene and Its Benzoyl-Containing Derivatives

V. Minaeva, Nataliya N. Karaush-Karmazin, Olexandr O. Panchenko, Maryana V. Chernyk, J. Simokaitiene, D. Volyniuk, J. Gražulevičius, B. Minaev, O. Reshetnyak
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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 analysed 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-fluorobenzoyl-thianthrene (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.
噻吩及其含苯甲酰衍生物的结构和光谱性质
研究了最近合成的一系列含苯甲酰噻吩衍生物的红外吸收光谱,并对其结构进行了鉴定。利用密度泛函理论(DFT)的梯度计算和Hessian搜索,在C2v对称约束的框架下对噻吩分子进行了基单重态的几何优化。发现蒽的激发单重态和三重态沿着D2h点群的b3u振动模式以及基态发生畸变,从而导致非平面电池状结构(C2v)。但是激发态需要额外的对称性缩减;它们更接近平面,但没有对称元素。通过对所有振动模式的完全赋值,并与实验红外吸收光谱进行比较,分析了噻吩-苯甲酰分子及其4个不同取代位置的含氟取代基衍生物的优化基态结构。实验数据与DFT计算的红外光谱之间的良好一致性为所有合成化合物的x射线衍射分析结果提供了额外的结构支持。为了分析3-氟苯甲酰噻吩(T3F)晶体中的分子间相互作用,对晶体进行了Hirshfeld表面分析。表明分子间存在弱的CH…F、CH…S和CH…O接触,稳定了T3F的晶体结构。在T3F晶体的红外光谱中,CH…O相互作用表现为频率分别为3084和3078 cm-1的两种振动模式。分子间相互作用CH…F和CH…S不影响T3F的红外光谱。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
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