卤素取代基对多环硝基芳香族高能分子引爆敏感性的影响

IF 1.9 4区 化学 Q2 CHEMISTRY, ORGANIC Journal of Physical Organic Chemistry Pub Date : 2024-07-12 DOI:10.1002/poc.4649
Ivana S. Veljković, Aleksandra B. Đunović, Dušan Ž. Veljković
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引用次数: 0

摘要

高能分子表面的分子静电位(MEP)分析通常用于预测这些化合物的引爆特性,因为分子中心区域的强正值静电位与对引爆的高灵敏度有关。在这项工作中,我们将键解离能 (BDE) 计算与 MEPs 分析相结合,揭示了卤素取代基对一系列卤素取代二硝基萘引爆敏感性的影响。研究结果表明,卤素取代基通过倾斜邻近的 NO2 基团影响所研究分子的起爆特性,从而导致相应 C-N 键的稳定性降低。此外,卤素原子还通过改变分子表面中心区域的静电位正值来影响所研究分子的起爆特性。
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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Influence of halogen substituents on sensitivity towards detonation of polycyclic nitroaromatic high-energy molecules

Analysis of molecular electrostatic potential (MEP) on the surface of high-energy molecules is often used to predict detonation properties of these compounds since strong positive values of electrostatic potentials in the central molecular regions are related to the high sensitivity towards detonation. In this work, we combined bond dissociation energy (BDE) calculations with analysis of the MEPs to reveal the influence of the halogen substituents on the sensitivities towards detonation of a series of halogen-substituted dinitronaphthalenes. Obtained results showed that halogen substituents affect detonation properties of the studied molecules by tilting the neighboring NO2 groups, which results in decreased stability of corresponding C–N bonds. In addition, halogen atoms affect the detonation properties of studied molecules by modifying the positive values of the electrostatic potentials in the central regions of the molecular surfaces.

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来源期刊
CiteScore
3.60
自引率
11.10%
发文量
161
审稿时长
2.3 months
期刊介绍: The Journal of Physical Organic Chemistry is the foremost international journal devoted to the relationship between molecular structure and chemical reactivity in organic systems. It publishes Research Articles, Reviews and Mini Reviews based on research striving to understand the principles governing chemical structures in relation to activity and transformation with physical and mathematical rigor, using results derived from experimental and computational methods. Physical Organic Chemistry is a central and fundamental field with multiple applications in fields such as molecular recognition, supramolecular chemistry, catalysis, photochemistry, biological and material sciences, nanotechnology and surface science.
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