含杂芳香族分子的芳香性:基于hÜckel修正参数理论的预测

IF 0.5 4区化学 Q4 CHEMISTRY, MULTIDISCIPLINARY

Quimica Nova Pub Date : 2023-05-29 DOI:10.21577/0100-4042.20230017

I. Sutjahja, Yuanita Sudarso, S. Ulhaq, Erik Yutomo

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引用次数: 0

摘要

h ckel理论是预测分子轨道和共轭分子能量的一种简单而有效的方法。然而，氮原子在含氮芳香分子中的存在，由于氮原子和碳原子之间电负性的差异，改变了库仑积分和共振积分。在本研究中，我们主要研究吖啶和非那嗪。基于环电流模型进行进一步校正，从而揭示了碳-碳键沿分子桥的共振积分的变化。利用HuLiS软件求解了 ckel法中π -电子体系的哈密顿量。利用各种基于几何的芳构指数得到了两个非等价环的芳构指数。为了进一步评估，键长结果用于计算相关键能。考虑到碳氢(CH)键，除了这两种研究的分子外，还将分子总能量与许多苯类烃和aza芳烃的实验生成热进行了比较。最后，评估了氮原子对芳香性指数与环能含量之间的相关性，以确定h ckel模型在多大程度上与先前的实验和先进的计算研究一致。

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AROMATICITY OF AZA AROMATIC MOLECULES: PREDICTION FROM HÜCKEL THEORY WITH MODIFIED PARAMETERS

Hückel theory is a simple and powerful method for predicting the molecular orbital and the energy of conjugated molecules. However, the presence of nitrogen atoms in aza aromatic molecules alters the Coulomb and resonance integrals owing to the difference in electronegativity between nitrogen and carbon atoms. In this study, we focus on acridine and phenazine. Further correction is implemented based on the ring current model, thus revealing the change in resonance integral for the carbon–carbon bond along the bridge of the molecule. The Hamiltonian of the π–electron system in the Hückel method is solved using the HuLiS software. Various geometry-based aromaticity indices are used to obtain the aromaticity indices of the two non-equivalent rings. For further evaluation, the results for bond lengths are used to calculate the associated bond energy. Considering the carbon–hydrogen (CH) bonds, the total molecular energy is compared with the experimental heats of formation for a number of benzenoid hydrocarbons and aza aromatics, in addition to the two studied molecules. Finally, the correlation between the nitrogen atom on the aromaticity index and the ring energy content is evaluated to determine to which extent the Hückel model agrees with previous experimental and advanced computational studies.

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来源期刊

Quimica Nova 化学-化学综合

CiteScore

1.60

自引率

12.50%

发文量

审稿时长

2-4 weeks

期刊介绍： Química Nova publishes in portuguese, spanish and english, original research articles, revisions, technical notes and articles about education in chemistry. All the manuscripts submitted to QN are evaluated by, at least, two reviewers (from Brazil and abroad) of recognized expertise in the field of chemistry involved in the manuscript. The Editorial Council can be eventually asked to review manuscripts. Editors are responsible for the final edition of QN.