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基于8-氨基喹啉的含双氰胺和三氰甲烷阴离子的有前景的锌配合物:超分子(8)/(16)合成子、密度泛函理论合理化及生物学见解

8-Aminoquinoline-Based Promising Zn Complexes with Dicyanamide and Tricyanomethane Anions: Supramolecular (8)/ (16) Synthons, DFT Rationalization, and Biological Insights.

作者信息

Hazra Suman, Majumdar Dhrubajyoti, Philip Jessica Elizabeth, Gassoumi Bouzid, Frontera Antonio, Roy Sourav, Ghalla Houcine, Dalai Sudipta

机构信息

Department of Chemistry, Tamralipta Mahavidyalaya, Tamluk, West Bengal 721636, India.

Department of Chemistry and Chemical Technology, Vidyasagar University, Midnapore, West Bengal 721102, India.

出版信息

ACS Omega. 2025 Apr 7;10(15):14770-14786. doi: 10.1021/acsomega.4c09312. eCollection 2025 Apr 22.

DOI:10.1021/acsomega.4c09312
PMID:40290975
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC12019732/
Abstract

Considering the new crystal engineering integrity utilizing the DFT and the issues surrounding antimicrobial resistance in complexes, there is a pressing need to tackle antifungal photodynamic therapy about global health challenges. Within the sphere of this study, we meticulously introduce the synthesis, characterization, and single-crystal structure of two 8-aminoquinoline-based Zn complexes [Zn{(8-AMQ) (X)}], X = dca () and TCM (). The X-ray study reveals that the complexes crystallize in the monoclinic and triclinic space groups 2/ and -1. The crystal packing in both complexes feature N-H···N hydrogen bonds as well as weak C-H···N interactions. The Hirshfeld surface provides quantitative insight into various supramolecular interactions, including π···π stacking, at large Cg···Cg distances. FMO supports the complexes' conductive behavior, excellent stability, and reactivity parameters. DOS investigation suggests good conductivity and reactivity properties. NBO analyzed that exhibits a greater reactive and high potential charge transfer mechanism. The QTAIM/NCI-RDG plot ensured N···Zn/H···N interactions and explored new supramolecular (8)/ (16) crystal engineering synthons. The Trypan blue exclusion method was used to evaluate cytotoxicity against the DLA cell line, demonstrating 's effectiveness against the cell, the lowest % of cell death, and a promising anticancer agent. The Zn complex antifungal photodynamic therapy finding showed significant activity against .

摘要

考虑到利用密度泛函理论(DFT)实现的新晶体工程完整性以及配合物中围绕抗菌抗性的问题,迫切需要应对抗真菌光动力疗法所面临的全球健康挑战。在本研究范围内,我们精心介绍了两种基于8-氨基喹啉的锌配合物[Zn{(8-AMQ)(X)}]的合成、表征和单晶结构,其中X = dca()和TCM()。X射线研究表明,这些配合物分别结晶于单斜晶系和三斜晶系的空间群2/和-1中。两种配合物中的晶体堆积均具有N-H···N氢键以及弱C-H···N相互作用。Hirshfeld表面提供了对各种超分子相互作用的定量见解,包括在较大Cg···Cg距离处的π···π堆积。前线分子轨道(FMO)支持配合物的导电行为、优异稳定性和反应性参数。态密度(DOS)研究表明具有良好的导电性和反应性。自然键轨道(NBO)分析表明 表现出更大的反应性和高电位电荷转移机制。量子拓扑原子分子理论/非共价相互作用区域密度泛函理论(QTAIM/NCI-RDG)图确定了N···Zn/H···N相互作用,并探索了新的超分子 (8)/ (16)晶体工程合成子。采用台盼蓝排斥法评估对DLA细胞系的细胞毒性,证明 对细胞有效,细胞死亡率最低,是一种有前景的抗癌剂。锌配合物的抗真菌光动力疗法研究结果表明对 具有显著活性。

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