过渡金属与功能取代硫酰胺配位化学的基本方面(第1部分)

S. Orysyk, V. Pekhnyo, V. Orysyk, Yu. L. Zborovskii, P. Borovyk, V. Mykhailo
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引用次数: 1

摘要

竞争配位、功能取代硫酰胺的互变异构体形式、合成条件和金属性质对三维和4d金属的单核、双核和多核配合物的反应过程和结构的影响是根据乌克兰国家科学院维尔纳德斯基普通化学和无机化学研究所"复杂化合物化学"系取得的结果考虑的。与乌克兰国家科学院有机化学研究所“杂环化合物化学”部门的工作人员一起。基于d金属与功能取代N, S-和O, N, S-含硫酰胺的反应,研究了配体密度以及络合物形成条件对所得到的配合物结构及其多态修饰的影响。此外,还证明了硫酰胺互变异构体形式对配位多面体立体化学的影响:发现在配合物结构中,硫离子互变异构体形式促进硫脲的转位,而巯基形式促进其在三维、四维金属多面体的正方形平面上的顺式位置。然而,研究发现,硫离子互变异构体形式导致八面体的形成,而硫醇形式导致Cu(II)和Ni(II)配合物中配位节点的方平面,其特征是配位多面体的变化(从方平面和四面体到八面体)取决于配体场的强度。很明显,硫酰胺互变异构体的这种作用与其分子中双键共轭体系的形成有关。在这种情况下,硫酰胺向硫醇形式的转变取决于pH值和有机溶剂的性质:在弱碱性介质或极性有机溶剂(吡啶,氯仿)中,平衡向硫醇互变异构体形式的主导地位转变。硫胺的硫离子互变异构体形式(取决于pH值和取代基组成)与金属盐主要以中性形式或单阴离子形式反应,形成分子或离子性质的配合物,而硫醇形式以阴离子形式反应,形成阴离子类型的配合物。离子型化合物通常在低浓度(10-3-10-5 mol/l)的水中可溶或微溶,而分子型化合物只溶于DMSO和DMF。结果表明,各种配体配合物的立体选择性合成主要通过三种方式进行:1)通过相应化学计量中初始组分的相互作用。在这种情况下,金属环境中的空位要么被起始金属盐的阴离子(Hal-、SO42-、NO3-、CH3COO-等)占据,要么被其他有机分子(三苯基膦、吡啶等)占据;2)进行平行反应(硫脲的水解和氧化),从而参与反应副产物的配位;3)与配体内重排进行反应,导致有机配体的环化及其转化为中心金属离子的产物的配位。然而,研究发现取代多齿硫胺在合成条件和配合金属作为有机反应促进剂的作用下均可发生水解/氧化或配体内环化。研究发现,根据起始试剂相互作用的温度和时间,可以形成不同的多态修饰物(三斜或单斜),其堆积密度和分子间相互作用的性质不同。因此,这些多态修饰在水中具有不同的溶解度,这对控制合成合适的结构及其实际应用具有重要意义。
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FUNDAMENTAL ASPECTS OF THE COORDINATION CHEMISTRY OF TRANSITION METALS WITH FUNCTIONALLY SUBSTITUTED THIOAMIDES (PART 1)
The influence of competitive coordination, a tautomeric form of functionally substituted thioamides, conditions of synthesis and nature of the metal on the course of the reaction and structure of mono-, bi, and polynuclear complexes of 3d, 4d-metals is considered based on results obtained in the Department of "Chemistry of Complex Compounds" of the V.I. Vernadsky Institute of General and Inorganic Chemistry NAS of Ukraine, together with the staff of the Department of “Chemistry of Heterocyclic Compounds” of the Institute of Organic Chemistry NAS of Ukraine. The influence of ligand denticity, as well as conditions of complex formation on the structure of obtained complexes and their polymorphic modifications, was studied based on the reaction of d-metals with functionally substituted N, S- and O, N, S-containing thioamides. In addition, it is proved the influence of tautomeric forms of thioamides on the stereochemistry of coordination polyhedra: it is found that the thionic tautomeric form promotes the transposition of thioureas, while the thiol form promotes its cis-position in the square-planar of a polyhedron of 3d, 4d-metals in the structure of complexes. However, it was found that the thion tautomeric form leads to the formation of octahedral, while the thiol form to the square-planar of coordination nodes in complexes of Cu(II) and Ni(II), which are characterized by a change in coordination polyhedra (from square-planar and tetrahedron to octahedron) that depending on the strength of the ligand field. It is obvious that this effect of tautomeric forms of thioamides is associated with the formation of a conjugate system of double bonds in their molecules. In this case, the transition of thioamide to thiol form depends on the pH and the nature of the organic solvent: in a weakly alkaline medium or polar organic solvent (pyridine, chloroform) there is a shift of equilibrium towards to the dominance of thiol tautomeric form. It was found that the thionic tautomeric form of thioamides (depending on pH and substituent composition) reacts with metal salts mainly in neutral form or in the monoanionic form, forming complexes of molecular or ionic nature, while thiol form reacts in the form of dianion, forming complexes preferably anionic type. Ionic compounds are usually soluble or sparingly soluble in water in low concentrations (10-3–10-5 mol/l), while compounds of the molecular type are soluble only in DMSO and DMF. It is shown that the stereoselective synthesis of various ligand complexes is carried out mainly in three ways: 1) by the interaction of the initial components in the corresponding stoichiometry. In this case, the vacancy in the metal environment is occupied by either the anions of the starting metal salt (Hal-, SO42-, NO3-, CH3COO-, etc.) or other organic molecules (triphenylphosphine, pyridine, etc.); 2) carrying out parallel reactions (hydrolysis and oxidation of thioureas), which lead to participation in the coordination of by-products of the reaction; 3) carrying out reactions with intraligand rearrangements, which leads to the cyclization of organic ligands and coordination of the products of their transformation to the central metal ion. However, it was found that hydrolysis / oxidation or intraligand cyclization of substituted polydentate thioamides can occur both under the action of synthesis conditions and under the action of complexing metals as promoters of organic reactions. It was found that depending on the temperature and time of interaction of the starting reagents, different polymorphic modifications of complexes (triclinic or monoclinic) are formed, which differ in packing density and the nature of intermolecular interactions. As a result, such polymorphic modifications have different solubilities in water, which is important for the controlled synthesis of appropriate structures and their practical application.
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