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引用次数: 0
摘要
本文探讨了 C 5 ${_5 }$ 环状分子中可能存在的五价键结构。为此,我们利用量子化学工具阐明了仅由五个碳原子形成的线性结构、环状结构和三维结构中化学键的可能排列方式和性质。虽然线性结构显然是最稳定的结构,但二维和三维结构都获得了局部最小值。利用定位-非定位矩阵方法,我们确定了最小线性结构和环状结构的特征。有趣的是,线性结构是离子键和共价键的结合,尽管在使用密度泛函理论时,四个距离几乎相同。对于环状 C 5 ${_5 }$,五角成键排列是一种重要的路易斯结构,表明了一种不寻常的形式构型,其特点是有五个相交的 C-C 键。我们的计算表明,环 C 5 ${_5 }$ 方案中的这种五角形排列也存在于更广为人知的环戊二烯分子中。
C5 Pentacle Structures: A Localization-Delocalization Matrices Approach
This article explores the possible presence of a pentacle valence bond structure in C
cyclic molecules. At this end, we have used quantum chemistry tools to elucidate the possible arrangement and the nature of chemical bonds within linear, cyclic, and three-dimensional structures only formed by five carbon atoms. While the linear structure is clearly the most stable one, local minima were obtained for both bi- and three-dimensional structures. Using the localization-delocalization matrices approach, we characterize both the minimum linear structure and the cyclic ones. Interestingly, the linear structure is a combination of ionic and covalent bonds, albeit the four distances are almost identical, when using Density Functional Theory. For cyclic C
, the pentacle bonding arrangement emerges as a significant Lewis structure, indicative of an unusual formal configuration characterized by five intersecting C−C bonds. Our calculations show that this pentacle arrangement in cyclic C
scheme is also present in the more known cyclo-pentadienyl molecule.
期刊介绍:
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