类丙二醛系统:BeF2团簇——氢键、铍键和共振之间的微妙平衡

Decis. Sci. Pub Date : 2022-02-13 DOI:10.3390/sci4010007

M. M. Montero‐Campillo, O. Mó, M. Yáñez

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引用次数: 0

摘要

丙二醛的稳定性是由分子内氢键(IMHBs)和丙二醛类体系控制的，在这些体系中，氧在任何一个碱性位点上都被N或S取代。由于铍键已被证明与氢键有很强的合作关系，本工作在高水平从头算G4理论水平上探索了通过与BeF2的关联将这种非共价相互作用纳入系统的影响。虽然丙二醛遵循预期的趋势，当存在IMHB和Be键时，也有利于形成伪环形式，但当涉及其他杂原子时，两种非共价相互作用之间的微妙平衡导致了一些令人惊讶的结果，以至于相互作用能量可能比预期的要大得多，甚至不利于环化。使用不同的计算工具进行完整的分析，给出了逃避可预测趋势的情况的答案。

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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Malonaldehyde-like Systems: BeF2 Clusters—A Subtle Balance between Hydrogen Bonds, Beryllium Bonds, and Resonance

The stability of malonaldehyde is governed by intramolecular hydrogen bonds (IMHBs) as well as in malonaldehyde-like systems where oxygen is replaced by N or S at any of the basic sites. As beryllium bonds have been shown to strongly cooperate with hydrogen bonds, this work explores at the high level ab initio G4 level of theory the effect of including this non-covalent interaction in the system through its association with BeF2. Although malonaldehyde follows the expected trends, where the formation of a pseudocyclic form is favored also when IMHB and Be bonds are present, the subtle balance between both non-covalent interactions leads to some surprising results when other heteroatoms are involved, to the point that interaction energies can be much larger than expected or even cyclization is not favored. A complete analysis using different computational tools gives an answer to those cases escaping the predictable trends.

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Decis. Sci.

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