C88 35种IPR异构体的计算处理

Z. Slanina, F. Uhlík, M. Yoshida, E. Ōsawa
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引用次数: 11

摘要

摘要用SAM1 (Semi-Ab-initio Model 1)量子化学方法描述了C88的35个隔离五边形规则(IPR)异构体的完备集。同时计算了HF/STO-3G、HF/3-21G和HF/4-31G水平下的分离能量。SAM1和HF/4-31G数据在几个kJ/mol范围内基本一致。由于SAM1的能量学不能再现最近的核磁共振观测,熵的贡献也被包括在内,这是基于谐振子和刚性旋转器模型。发现温度对系统的相对稳定性有相当大的影响。C88的基态结构为c3异构体,但随着温度的升高,c2结构变得重要。在更高的温度下,接近二氧化碳的物种占主导地位。结果可以看作是与现有的观测值很好的一致,它们进一步扩大了热力学平衡处理允许观测值满意支持的IPR集的家族。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
A Computational Treatment of 35 IPR Isomers of C88
Abstract The complete sets of 35 isolated-pentagon-rule (IPR) isomers of C88 is described by the SAM1 (Semi-Ab-initio Model 1) quantum-chemical method. The separation energetics is also computed at the HF/STO-3G, HF/3-21G, and HF/4-31G levels. The SAM1 and HF/4-31G data mostly agree within a few kJ/mol. As the SAM1 energetics does not reproduce the recent NMR observations, entropy contributions are included, too, being based on the harmonic-oscillator and rigid-rotator model. Considerable temperature effects on the relative stabilities in the system are found. The ground-state structure of C88 is a C 3 isomer, however, with an increase of temperature a C 2 structure becomes important. At still higher temperatures a near C 2 species is dominant. The results can be viewed as a good agreement with the available observations, and they further expand the family of the IPR sets where the thermodynamic equilibrium treatment allows for a satisfactory support of observations.
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