几种无供体和双齿希夫碱及其金属配合物的首次报道:表征和抗菌研究

Compounds Pub Date : 2023-07-05 DOI:10.3390/compounds3030029
A. A. Mohamed, Abeer A. Nassr, S. Sadeek, N. Rashid, S. M. Abd El‐Hamid
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引用次数: 0

摘要

苯胺与水杨醛反应的缩合产物为2-(2-羟基苄基二胺)-苯胺希夫碱双齿配体(L)。L与金属离子镧(III)、锆(IV)、钇(III)、铜(II)以及钴(II)相互作用生成配合物。利用元素分析(CHN)、电导率(Λ)、磁化率(μeff)、傅里叶变换红外光谱(FT-IR)、质子核磁共振(1H NMR)、紫外可见分光光度(UV-Vis)和热分析(TG/DTG)等多种物理化学技术对合成的L及其金属螯合物进行了分析。傅里叶变换红外光谱显示,L分子作为双齿配体,通过酚基的氧原子和亚甲基的氮原子与金属离子结合。此外,1H NMR数据表明配合物是通过酚基的氧原子形成的。根据紫外-可见光谱,提出了所有螯合物的八面体几何结构。光谱和磁矩研究。热分析提供了深入了解L的模式,以及其螯合物的分解。此外,该研究还提供了螯合物潜在化学式的详细信息,吸附或晶格水分子的特征,以及在超过120°C的温度下与结构分离的配位水。利用Coats-Redfern方程和Horowitz-Metzger方程对热力学参数进行了研究。采用圆盘扩散法研究了L及其螯合物对不同种类细菌和真菌的抑菌效果。Cu(II)和Y(III)螯合物对金黄色葡萄球菌和黄体微球菌具有显著的抑菌活性。
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First Report on Several NO-Donor Sets and Bidentate Schiff Base and Its Metal Complexes: Characterization and Antimicrobial Investigation
The condensation product of the reaction between aniline and salicylaldehyde was a 2-(2-hydroxybenzylidinemine)—aniline Schiff base bidentate ligand (L). L was used to generate complexes by interacting with the metal ions lanthanum(III), zirconium(IV), yttrium(III), and copper(II), in addition to cobalt(II). Various physicochemical techniques were utilized to analyze the synthesized L and its metal chelates, including elemental analysis (CHN), conductimetry (Λ), magnetic susceptibility investigations (μeff), Fourier-transform infrared spectroscopy (FT-IR), proton nuclear magnetic resonance (1H NMR) spectroscopy, ultraviolet–visible (UV-Vis.) spectrophotometry, and thermal studies (TG/DTG). FT-IR revealed that the L molecule acted as a bidentate ligand by binding to metal ions via both the oxygen atom of the phenolic group in addition to the nitrogen atom of the azomethine group. Additionally, 1H NMR data indicated the formation of complexes via the oxygen atom of the phenolic group. An octahedral geometrical structure for all of the chelates was proposed according to the UV-Vis. spectra and magnetic moment investigations. Thermal analysis provided insight into the pattern of L in addition to its chelates’ breakdown. In addition, the investigation furnished details on the chelates’ potential chemical formulas, the characteristics of adsorbed or lattice H2O molecules, and the water that is coordinated but separated from the structure at temperatures exceeding 120 °C. The thermodynamic parameters utilizing Coats–Redfern in addition to Horowitz–Metzger equations were studied. The antimicrobial effectiveness of L and its chelates against distinct species of bacteria and fungi was studied using the disc diffusion method. Cu(II) and Y(III) chelates had significant antimicrobial activity against Staphylococcus aureus and Micrococcus luteus.
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