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新型基于氟康唑药物的有机-无机盐:TD-DFT 基准测试及卤素取代的计算洞察。

New Organic-Inorganic Salt Based on Fluconazole Drug: TD-DFT Benchmark and Computational Insights into Halogen Substitution.

机构信息

Chemistry Department, College of Science, Imam Mohammad Ibn Saud Islamic University (IMISU), Riyadh 11623, Saudi Arabia.

Selective Organic & Heterocyclic Synthesis-Biological Activity Evaluation, Département de Chimie, Faculté des sciences de Tunis, Université de Tunis El Manar, Tunis 2092, Tunisia.

出版信息

Int J Mol Sci. 2022 Aug 6;23(15):8765. doi: 10.3390/ijms23158765.

DOI:10.3390/ijms23158765
PMID:35955897
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC9369134/
Abstract

In this study, we report the synthesis of a new organic-inorganic molecular salt of the clinically used antifungal drug fluconazole, (H2Fluconazole).SnCl.2HO. By detailed investigation and analysis of its structural properties, we show that the structure represents a 0D structure built of alternating organic and inorganic zig-zag layers along the crystallographic c-axis and the primary supramolecular synthons in this salt are hydrogen bonding, F···π and halogen bonding interactions. Magnetic measurements reveal the co-existence of weak ferromagnetic behavior at low magnetic field and large diamagnetic contributions, indicating that the synthesized material behaves mainly as a diamagnetic material, with very low magnetic susceptibility and with a band gap energy of 3.6 eV, and the salt is suitable for semiconducting applications. Extensive theoretical study is performed to explain the acceptor donor reactivity of this compound and to predict the Cl-substitution effect by F, Br and I. The energy gap, frontier molecular orbitals (FMOs) and the different chemical reactivity descriptors were evaluated at a high theoretical level. Calculations show that Cl substitution by Br and I generates compounds with more important antioxidant ability and the intramolecular charge transfer linked to the inorganic anion.

摘要

在这项研究中,我们报告了一种新的有机-无机分子盐的合成,该盐是临床上使用的抗真菌药物氟康唑的(H2Fluconazole)。SnCl.2HO。通过对其结构性质的详细研究和分析,我们表明该结构代表了一种 0D 结构,由沿结晶学 c 轴的交替有机和无机之字形层组成,该盐中的主要超分子合成子是氢键、F···π 和卤键相互作用。磁性测量揭示了在低磁场下弱铁磁行为和大反磁性贡献的共存,表明合成材料主要表现为抗磁性材料,具有非常低的磁敏感性和 3.6 eV 的带隙能,并且该盐适合用于半导体应用。进行了广泛的理论研究,以解释该化合物的给体-受体反应性,并预测 F、Br 和 I 对 Cl 的取代效应。在高理论水平上评估了能隙、前沿分子轨道(FMO)和不同的化学反应性描述符。计算表明,Br 和 I 对 Cl 的取代会产生具有更重要抗氧化能力的化合物,以及与无机阴离子相连的分子内电荷转移。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/b0b5/9369134/aba9812be579/ijms-23-08765-g013.jpg
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https://cdn.ncbi.nlm.nih.gov/pmc/blobs/b0b5/9369134/235d4caa856b/ijms-23-08765-sch001.jpg
https://cdn.ncbi.nlm.nih.gov/pmc/blobs/b0b5/9369134/a6287c8cfb2f/ijms-23-08765-g001.jpg
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