Yang Hong, Chen Jia-Min, Sun Jing-Jia, Yang Shi-Ping, Yu Jie, Tan Hong, Li Wei
Department of Chemistry, College of Life and Environmental Science, Shanghai Normal University, Shanghai, 200234, P. R. China.
Dalton Trans. 2009 Apr 14(14):2540-51. doi: 10.1039/b808385a. Epub 2009 Feb 23.
Three Co(II) complexes with the formulas: {[Co2(Bib)3Cl2]Cl(CH3COO)}.CH3OH.H2O (1), [Co2(Bib)3Cl2]Cl2.(CH3OH)2.H2O, (2) and [Co3K1(Tib)2(CH3COO)6]PF6 (3), were obtained by self-assembly of a cobalt(II) salt with Bib and Tib (Bib = 1,3-bis(4,5-dihydro-1H-imidazol-2-yl)benzene; Tib = 1,3,5-tris(4,5-dihydro-1H-imidazol-2-yl)benzene) and were structurally and magnetically characterized. X-Ray single-crystal diffraction showed that each Co(II) ion was in a highly distorted tetrahedral coordination geometry with a cis-trans ratio of 1 : 2 from the Bib ligand, which functioned in a bidentate fashion in the binuclear triple-helical [Co2(Bib)3Cl2]2+ cations in 1 and 2. In the [Co3K1(Tib)2(CH3COO)6]- anions in 3, each Co(II) ion was also in a highly distorted tetrahedral coordination geometry and the Tib ligands acted in an offset fashion in C, C, C and A, A, A coordination to the Co(II) ions with pi-pi stacking interactions between two benzene rings from the Tib ligand in the cluster cation. Each Tib ligand in a cluster unit acted as a tridentate entity to coordinate three Co(II) ions resulting in a cylinder-like cluster structure. The intermolecular hydrogen bonds in the solid-state resulted in the well-shaped 2D layer network which formed a honeycomb in 1, the 3D supramolecular architecture which was connected to the 2D sheet into 3D in 2 and the 3D supramolecular architecture, which was extended into a well-shaped 2D honeycomb layer network in 3. The results from magnetic data, in the high-temperature region, showed that 1 and 2 obeyed the Curie-Weiss law with a Weiss constants theta = -12.3, and -9.8 K and a Curie constants C = 5.31 and 5.32 cm3 K mo1(-1), respectively, indicating antiferromagnetic interactions between adjacent cobalt(II) ions. Both complex 1 and 2 showed magnetic ordering at low temperature due to the canting effect. The zero-field AC magnetic susceptibility measurements for 1 and 2 displayed a maximum which was frequency dependent owing to a slow relaxation process, which could be caused by either domain wall movements or spin-glass behaviours.
通过钴(II)盐与Bib和Tib(Bib = 1,3 - 双(4,5 - 二氢 - 1H - 咪唑 - 2 - 基)苯;Tib = 1,3,5 - 三(4,5 - 二氢 - 1H - 咪唑 - 2 - 基)苯)的自组装,得到了三种化学式分别为{[Co₂(Bib)₃Cl₂]Cl(CH₃COO)}.CH₃OH.H₂O (1)、[Co₂(Bib)₃Cl₂]Cl₂.(CH₃OH)₂.H₂O (2) 和 [Co₃K₁(Tib)₂(CH₃COO)₆]PF₆ (3) 的钴(II)配合物,并对其进行了结构和磁性表征。X射线单晶衍射表明,每个Co(II)离子处于高度扭曲的四面体配位几何构型,来自Bib配体的顺反比为1 : 2,在1和2中的双核三螺旋[Co₂(Bib)₃Cl₂]²⁺阳离子中,Bib配体以双齿方式起作用。在3中的[Co₃K₁(Tib)₂(CH₃COO)₆]⁻阴离子中,每个Co(II)离子也处于高度扭曲的四面体配位几何构型,Tib配体以C、C、C和A、A、A配位方式以偏移方式与Co(II)离子配位,簇阳离子中来自Tib配体的两个苯环之间存在π - π堆积相互作用。簇单元中的每个Tib配体作为三齿实体配位三个Co(II)离子,形成圆柱状簇结构。固态中的分子间氢键导致形成形状良好的二维层状网络,在1中形成蜂窝状,在2中形成连接二维片层成三维的三维超分子结构,在3中形成延伸成形状良好的二维蜂窝状层网络的三维超分子结构。高温区域的磁性数据结果表明,1和2服从居里 - 外斯定律,外斯常数θ分别为 - 12.3和 - 9.8 K,居里常数C分别为5.31和5.32 cm³ K mo⁻¹,表明相邻钴(II)离子之间存在反铁磁相互作用。由于倾斜效应,配合物1和2在低温下均表现出磁有序。1和2的零场交流磁化率测量显示出一个最大值,该最大值与频率有关,这是由于慢弛豫过程引起的,这可能是由畴壁运动或自旋玻璃行为导致的。
Zotero 插件