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基于黄酮醇和布洛芬配体的环金属化苯基吡啶铱(iii)配合物作为有效抗氧化剂的实验与理论研究

Experimental and theoretical investigation of cyclometalated phenylpyridine iridium(iii) complex based on flavonol and ibuprofen ligands as potent antioxidant.

作者信息

Tabrizi Leila, Nguyen Thi Le Anh, Dao Duy Quang

机构信息

School of Chemistry, National University of Ireland University Road Galway H91 TK33 Ireland

Institute of Research and Development, Duy Tan University 03 Quang Trung Danang 550000 Vietnam

出版信息

RSC Adv. 2019 Jun 3;9(30):17220-17237. doi: 10.1039/c9ra02726b. eCollection 2019 May 29.

DOI:10.1039/c9ra02726b
PMID:35519868
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC9064460/
Abstract

An Ir(iii) complex was synthesized using mixed ligands of biological importance, namely ibuprofen, flavonol and 2-phenylpyridine. The compound was characterized by H-NMR, C-NMR and TOF-MS spectroscopies and elemental analysis. Structures of the complex and its ligands were also calculated by density functional theory using B3LYP/Lanl2dz//6-31G(d) level of theory. Analyses of electrostatic potential, natural population, and frontier orbitals of the molecules as well as the calculation of intrinsic thermochemical properties such as bond dissociation enthalpy, ionization potential, electron affinity and proton affinity in the gas phase and in solvents (water and pentylethanoate) give the first indication that the complex is a potential antioxidant. The latter even shows better antioxidant capacity than the parent ligands. The antioxidant properties of the complex and its ligands were experimentally evaluated by studying the free radical scavenging activity towards HO˙, NO˙, DPPH˙ and ABTS˙ radicals. Further computational work on the antioxidant processes such as the single electron transfer, the proton loss, the formal hydrogen transfer (FHT) and the radical adduct formation reactions was conducted. Results show that the FHT reaction is the mechanism responsible for the radical scavenging activity of the complex towards HO˙, HOO˙, NO˙ and DPPH˙ radicals while ABTS˙ seems to be scavenged by an electron-donating mechanism. The FHT was further determined as a hydrogen-atom transfer but not a proton-couple electron transfer mechanism.

摘要

使用具有生物学重要性的混合配体(即布洛芬、黄酮醇和2-苯基吡啶)合成了一种铱(III)配合物。通过氢核磁共振(H-NMR)、碳核磁共振(C-NMR)、飞行时间质谱(TOF-MS)光谱学以及元素分析对该化合物进行了表征。还使用密度泛函理论,在B3LYP/Lanl2dz//6-31G(d)理论水平下计算了配合物及其配体的结构。对分子的静电势、自然布居和前线轨道进行分析,以及计算气相和溶剂(水和戊基乙酸酯)中的键解离焓、电离势、电子亲和能和质子亲和能等固有热化学性质,首次表明该配合物是一种潜在的抗氧化剂。后者甚至表现出比母体配体更好的抗氧化能力。通过研究对羟基自由基(HO˙)、一氧化氮自由基(NO˙)、二苯基苦味酰基自由基(DPPH˙)和2,2'-联氮-双-3-乙基苯并噻唑啉-6-磺酸自由基(ABTS˙)的自由基清除活性,对配合物及其配体的抗氧化性能进行了实验评估。还对单电子转移、质子损失、形式氢转移(FHT)和自由基加合物形成反应等抗氧化过程进行了进一步的计算研究。结果表明,FHT反应是该配合物对HO˙、HOO˙、NO˙和DPPH˙自由基具有自由基清除活性的机制,而ABTS˙似乎是通过供电子机制被清除的。进一步确定FHT是一种氢原子转移机制,而不是质子耦合电子转移机制。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/f6e8/9064460/8fff2ea46d9a/c9ra02726b-f8.jpg
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