SYNTHESIS OF SALTS OF N-ALLYLTRICHLOROACETAMIDINIUM HEXAHALOGENOTELLURATE

Mariana Povidaichik, Oleksandr Shalimov, M. Onysko, P. Onysko
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Abstract

Amidines with a trichloromethyl group exhibit the properties of inotropic agents, which are used as scaffolds in synthesizing aza-hete­rocycles and ligands for complex formation. Functionalized amidines show anticancer, and antidiabetic activity, and are antihypertensive and antiparasitic agents. The synthesis of new functional derivatives of such amidines is definitely an urgent task. The introduction of an alkenyl substituent and several nucleophilic centers in the amidine creates prerequisites for electrophilic cyclization. This work aims to study the reactions of N-allyl-N-methyl-N'-(trimethylsilyl)-2,2,2-trichloroethanimidamide with tellurium halides. The starting N-allyl-N-methyl-N'-(trimethylsilyl)-2,2,2-trichloroethanimidamide was synthesized from N-allyl-N-methyl-­2,2,2-­trichloroethanimidamide by the action of trimethylsilyl chloride in the presence of triethylamine base. The reaction of N-­allyl-­N-methyl-N'-(trimethylsilyl)-2,2,2-trichloroethanimidamide with tellurium dioxide in hydrohalic acid was carried out while cooling to 0°C. Elemental analysis confirms that the electrophilic reagent is in its acidic form in the complex. The 1H NMR spectra of the obtained complexes indicate the absence of EVC - the spin pattern of the proton signals of the allylic substituent, characteristic of the starting compounds, is preserved, but the signals are shifted by 0.3–0.6 ppm. The absence of proton signals of the trimethyl salt substituent indicates the removal of imide protection under these conditions. The presence of a broade­ned singlet in a weak field indicates the pre­sence of acidic protons. Apparently, protonation does not take place on the alkenyl multiple bonds, but, presumably, on the imide nitrogen atom. Based on elemental analysis, the composition of the formed complex was determined: N-allyl-N-methyl-2,2,2-trichloroethanimidamidine: hexahalogenotelluric acid as 1:0.5, which contains 4 or 3 water molecules. So the interaction of N-allyl-N-methyl-N'-(trimethylsilyl)-2,2,2-trichloroethanimidamide with tellurium tetrahalides in a strongly acidic environment, tellurium- or proton-induced cyclization does not occur, but hexahalogeno­tellurate N-allyl-N-methyl-2,2,2-trichloro­etha­neimidamidinium regardless of the polarity of the solvent.  
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六卤代碲酸n -烯丙基三氯乙脒盐的合成
具有三氯甲基的脒类具有肌力剂的性质,可作为合成杂氮杂环的支架和配合物的配体。功能化脒具有抗癌、抗糖尿病、抗高血压和抗寄生虫的作用。合成这类酰胺类新的功能衍生物无疑是一项紧迫的任务。在酰胺中引入一个烯基取代基和几个亲核中心为亲电环化创造了先决条件。本工作旨在研究n -烯丙基- n -甲基- n '-(三甲基硅基)-2,2,2-三氯乙酰胺与卤化碲的反应。以n -烯丙基- n -甲基-2,2,2-三氯乙胺为原料,在三乙胺碱存在下,通过三甲基硅氯的作用合成了n -烯丙基- n -甲基- n '-(三甲基硅基)-2,2,2-三氯乙胺。将N-烯丙基-N -甲基-N'-(三甲基硅基)-2,2,2-三氯乙酰胺与二氧化碲在氢盐酸中进行反应,冷却至0℃。元素分析证实亲电试剂在络合物中呈酸性。得到的配合物的1H NMR谱表明没有EVC -烯丙基取代基质子信号的自旋模式(起始化合物的特征)被保留,但信号移位了0.3-0.6 ppm。三甲基盐取代基的质子信号的缺失表明在这些条件下亚胺保护的去除。弱场中宽需单重态的存在表明酸性质子的存在。显然,质子化不会发生在烯基多键上,而可能发生在亚胺氮原子上。通过元素分析,确定了所形成的配合物的组成:n -烯丙基- n -甲基-2,2,2-三氯乙胺:六卤碲酸为1:0.5,其中含有4个或3个水分子。因此,在强酸性环境下,n-烯丙基- n-甲基- n '-(三甲基硅基)-2,2,2-三氯乙酰胺与四卤碲不会发生相互作用,而与溶剂的极性无关,六卤基-碲酸盐n-烯丙基- n-甲基-2,2,2-三氯乙基-内咪脒不会发生环化。
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