Quantum chemical research of the molecular structure of 3,4-dicyanofuroxan

I. N. Kolesnikova, N. V. Lobanov, V. N. Lobanov, I. F. Shishkov
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Abstract

Objectives. The study set out to determine the equilibrium parameters of the 3,4-dicyanofuroxan molecule by means of molecule geometry optimization by quantum chemistry methods, verify the adequacy of the methods used, and compare the obtained results with X-ray diffraction analysis (XRD) and gas electron diffraction (GED) data.Methods. Quantum chemical calculations were carried out using B3LYP, MP2, and CCSD(T) methods with 6-31G(d,p), cc-pVTZ, and aug-cc-pVTZ basis sets.Results. The equilibrium molecular structure of 3,4-dicyanofuroxan was refined by means of quantum chemical calculations using the Gaussian09 program. The geometrical parameters were compared with the structure of this compound in the solid phase and a number of related compounds in gas and solid phases. It was theoretically established that the planar equilibrium structure of the dicyanofuroxan molecule has CS symmetry. The structure of the free dicyanofuroxan molecule was found to differ depending on the phase. The B3LYP and CCSD(T) methods describe the molecular structure of dicyanofuroxan more accurately than the MP2 method. A regularity was revealed, according to which an increase in the basis, as a rule, leads to a better agreement of the geometry, regardless of the functional.Conclusions. The calculations performed are in good agreement with the literature data and results of joint analysis by GED and XRD. The effect of cyano substituents on the ring geometry is observed in comparison with the literature data for the dicyanofuroxan molecule. For the molecule in question, it is better to use the B3LYP/aug-cc-pVTZ method. The values of geometric parameters obtained by this method are in better agreement with the structure in the gas phase. The discrepancies with the experimental XRD results may be due to interactions in the crystal structure. Differences in the geometric parameters obtained on the basis of different functionals and bases make this molecule interesting for experimental structural studies using GED or microwave spectroscopy, which will permit the identification of optimal methods and bases for obtaining the geometric parameters of furoxan class molecules.
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3,4-二氰呋喃嘧啶分子结构的量子化学研究
目标。本研究拟采用量子化学方法对3,4-二氰呋喃嘧啶分子进行分子几何优化,确定其平衡参数,验证所采用方法的充分性,并将所得结果与x射线衍射(XRD)和气体电子衍射(GED)数据进行比较。采用B3LYP、MP2和CCSD(T)方法,以6-31G(d,p)、cc-pVTZ和8 -cc-pVTZ基集进行量子化学计算。采用量子化学计算方法,利用gaussian - 09程序对3,4-二氰呋咱的平衡分子结构进行了精化。将几何参数与该化合物在固相中的结构以及一些相关化合物在气固相中的结构进行了比较。从理论上证实了二氰呋喃嘧啶分子的平面平衡结构具有CS对称。发现游离二氰呋喃嘧啶分子的结构随相的不同而不同。B3LYP和CCSD(T)方法比MP2方法更准确地描述了二氰呋喃嘧啶的分子结构。揭示了一种规律,根据这种规律,无论函数如何,基的增加通常会使几何形状更符合。计算结果与文献数据及GED、XRD联合分析结果吻合较好。通过与文献数据的比较,观察到氰基取代基对二氰呋喃分子的环几何形状的影响。对于所讨论的分子,最好使用B3LYP/aug-cc-pVTZ方法。该方法得到的几何参数值与气相结构吻合较好。与实验XRD结果的差异可能是由于晶体结构的相互作用。基于不同官能团和碱基所获得的几何参数的差异使得该分子对使用GED或微波光谱进行实验结构研究很感兴趣,这将允许确定获得呋喃嘧啶类分子几何参数的最佳方法和碱基。
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