PREDICTION OF DIPROPYL SULFONE PROPERTIES BY DENSITY FUNCTIONAL THEORY METHODS: CONFORMATIONAL ANALYSIS AND SIMULATED IR SPECTRUM

Z. Papanyan, L. Gabrielyan
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Abstract

In this work, the conformational and vibrational analysis of dipropyl sulfone in its isolated gaseous state with identification of all stable conformers, their energy and degeneracy, relative population determined by Boltzmann distribution, as well as IR spectra have been performed by density functional theory (DFT) methods. Several DFT methods and basis sets were tested. It was demonstrated that the various local and hybrid DFT functionals such as well-known B3LYP, regardless of the size of basis sets, completely fail in the prediction of correct molecular structures, let alone the IR spectra. It was found that only long-range corrected hybrid density functionals, combined with decently sized basis sets are capable to predict correct values of dihedral angles between non-bonded atomic groups: the most important coordinates in conformational analysis. Thus, wB97XD/6-311++G(2df,2pd) method/basis set combination appears to be the best method for the titled system both in terms of geometry and IR spectra prediction. A detailed analysis of the potential energy surface revealed the existence of 28 distinct conformers with various populations at 298 K, which have significant impact in the simulated IR spectra. The linear scaling equation (LSE) fitting methodology was successfully adopted for the calibration of wavenumbers and achievement of the best match between theoretical and experimental absorption regions of functional groups in sulfones. Moreover, in the construction of the simulated IR spectra, the Lorentzian broadening of each calculated mode with different full widths at half maximum was considered to obtain extinction coefficients, thus more realistic ε(ν) dependency, that is directly comparable with experimental spectra. The authenticity of the results obtained have been verified by comparison with existing experimental literature data on sulfones.
用密度泛函理论方法预测二丙基砜的性质:构象分析和模拟红外光谱
本文采用密度泛函理论(DFT)方法对二丙基砜在分离气态状态下的构象和振动进行了分析,并确定了所有稳定的构象、它们的能量和简并度、由玻尔兹曼分布确定的相对居群以及红外光谱。测试了几种DFT方法和基集。结果表明,无论基集大小如何,各种局部和混合DFT泛函(如众所周知的B3LYP)在正确预测分子结构方面完全失败,更不用说红外光谱了。研究发现,只有远程校正杂化密度泛函与适当大小的基集相结合,才能预测非键原子群之间的二面角的正确值,而二面角是构象分析中最重要的坐标。因此,wB97XD/6-311++G(2df,2pd)方法/基集组合在几何形状和红外光谱预测方面都是最佳的方法。对势能面进行了详细的分析,发现在298 K时存在28种不同种群的不同构象,这些构象对模拟红外光谱有显著影响。采用线性标度方程(LSE)拟合方法对波数进行了标定,得到了砜中官能团的理论吸收区与实验吸收区的最佳匹配。此外,在模拟红外光谱的构建中,考虑了各计算模式在半最大值处不同全宽的洛伦兹展宽,得到消光系数,使ε(ν)依赖关系更真实,与实验光谱直接可比。通过与已有的砜类实验文献数据的对比,验证了所得结果的真实性。
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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