P. O. Chernigova, L. M. Sinegovskaya, L. N. Parshina, I. Sterkhova, V. I. Smirnov
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引用次数: 0
Abstract
The study considers metal complexes based on N-styrylbenzimidazole as compounds having significant pharmacological properties The work is aimed at examining the crystal structure and electronic structure of transition metal bis(hexafluoroacetylacetonate) complexes (copper (II) (complex A) and cobalt (II) (complex B)) with N-styrylbenzimidazole using X-ray diffraction analysis and ultraviolet spectroscopy. The X-ray diffraction analysis was used to prove bipyramidal coordination in copper (II) and cobalt (II) bis(hexafluoroacetylacetonate) complexes with N-styrylbenzimidazole. The atoms of copper (II) and cobalt (II) in the complexes exhibit an unusual for β-diketonate complexes distorted square-planar coordination, while the chelate cycles in M(hfacac)2L are characterized by anomalously large kink angles. Thus, for the copper (II) bis(hexafluoroacetylacetonate) complex, the kink angle of the O3∙∙∙O4 interaction for the equatorially positioned ligand is 29.47°, while for the axially positioned ligand, the kink angle of the O1∙∙∙O2 interaction is 19.13°. For the cobalt (II) bis(hexafluoroacetylacetonate) complex, these angles are 22.10 and 19.50°, respectively. Electron spectroscopy was used to examine the electronic structure of the specified complexes. The following types of electronic transitions were identified: π→π*-transitions primarily localized on ligands, as well as transitions caused by electron transfer from the p-orbital of the hetero nitrogen atom of the styrylbenzimidazole cycle to the d-orbital of metal ions, and n→π transition localized on the imidazole ring. For each of the complexes, d-d* transitions between the molecular orbitals of the corresponding metal ion were localized in the long wavelength part of the spectrum.
该研究认为基于 N-苯乙烯基苯并咪唑的金属配合物是具有重要药理特性的化合物。该研究旨在利用 X 射线衍射分析和紫外光谱分析,研究过渡金属双(六氟乙酰丙酮)配合物(铜(II)(配合物 A)和钴(II)(配合物 B))与 N-苯乙烯基苯并咪唑的晶体结构和电子结构。 X 射线衍射分析证明了铜 (II) 和钴 (II) 与 N-苯乙烯基苯并咪唑的双(六氟乙酰丙酮)络合物中的双柱配位。络合物中的铜(II)和钴(II)原子表现出对 β-二酮酸络合物来说不同寻常的扭曲方平面配位,而 M(hfacac)2L 中的螯合循环则表现出异常大的扭角。因此,对于双(六氟乙酰丙酮)铜 (II) 配合物,赤道定位配体的 O3∙∙∙O4 相互作用的折角为 29.47°,而轴向定位配体的 O1∙∙∙O2 相互作用的折角为 19.13°。对于双(六氟乙酰丙酮)钴 (II) 复合物,这两个角度分别为 22.10 度和 19.50 度。电子显微镜用于研究特定配合物的电子结构。确定了以下类型的电子跃迁:主要发生在配体上的π→π*转变,以及电子从苯乙烯苯并咪唑环的杂氮原子的 p 轨道转移到金属离子的 d 轨道所引起的转变,以及发生在咪唑环上的 n→π 转变。对于每种配合物,相应金属离子分子轨道之间的 d-d* 转变都定位于光谱的长波长部分。