阴离子[2- b10h90o (CH2) 40o]−与仲胺的相互作用

E. Matveev, S. S. Novikov, V. Y. Levitskaya, A. Nichugovskiy, I. E. Sokolov, K. Zhizhin, N. T. Kuznetsov
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The disclosure of substituents of this type leads to the formation of closo-borates with functional groups separated from the cluster by an alkoxyl spacer chain. The purpose of this study is to develop methods for the synthesis of derivatives of the closo-decaborate anion [B10H10]2− with pendant nitrogen-containing groups.Methods. The general control of the reactions of the disclosure of cyclic substituents was carried out on the basis of 11B nuclear magnetic resonance (NMR) spectroscopy data. The structure of the obtained derivatives, including the nature of the attached functional groups, was determined using 1H, 13C attached proton test (APT) NMR and infrared (IR) spectroscopy data. The molecular weight of the synthesized compounds was confirmed by electrospray ionization mass-spectrometry (ESI–MS).Results. 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引用次数: 3

摘要

目标。治疗恶性肿瘤最有希望的方法之一是10b -中子俘获疗法。虽然基于簇状硼阴离子[BnHn]2−(n = 10,12)的化合物通常被用作含硼剂,因为每个粒子的硼原子比浓度非常高,但使用此类化合物需要开发新的方法来实现硼簇的功能化,从而生产含有生物活性官能团的含硼衍生物。[BnHn]2−(n = 10,12)阴离子的最方便的修饰方法之一是其含有环氧型取代基的衍生物与带负电或中性亲核试剂的相互作用。这种类型取代基的公开导致形成具有由烷氧基间隔链从簇中分离的官能团的近硼酸盐。本研究的目的是建立具有悬垂含氮基团的近癸酸阴离子[B10H10]2−衍生物的合成方法。利用11B核磁共振(NMR)谱数据对揭示环取代基的反应进行了总体控制。通过1H、13C连接质子测试(APT)核磁共振和红外(IR)光谱数据确定了所得衍生物的结构,包括连接官能团的性质。通过电喷雾电离质谱(ESI-MS)测定了化合物的分子量。研究了阴离子[2- b10h90o (CH2) 40o]−在乙醇环境中与仲胺(二甲胺、二丙胺、二烯丙胺、二丁胺、二异丁胺、morpholine、二叔丁胺)的相互作用。作为反应的结果,环取代基随着亲核试剂的加入而膨胀。本文合成了7个含垂氮基团的紧配合阴离子衍生物。提出了一种用烷氧基间隔基将硼团簇与铵基分离得到紧密脱硼酸盐的方法。结果表明,使用不同结构的胺不会从根本上影响反应的进行,从而可以有效地调节目标衍生物的组成和结构。由于反应性悬垂基团,所得到的化合物可以参与进一步的修饰反应,并且适合用作有效的多齿配体。具有垂坠含氮基团的近脱硼酸盐及其衍生物在合成用于恶性肿瘤10b -中子俘获治疗的化合物方面具有相当大的兴趣。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Interaction of the anion [2-B10H9O(CH2)4O]− with secondary amines
Objectives. One of the most promising methods of treating malignant tumors is 10B-neutron capture therapy. While compounds based on cluster boron anions [BnHn]2− (n = 10, 12) are often used as boron-containing agents due to the very high specific concentration of boron atoms per particle, the use of such compounds is associated with the need to develop new methods for the functionalization of boron clusters associated with the production of boron-containing derivatives containing biologically active functional groups. One of the most convenient methods of modification of [BnHn]2− (n = 10, 12) anions is the interaction of their derivatives containing cyclic oxonium-type substituents with negatively charged or neutral nucleophilic reagents. The disclosure of substituents of this type leads to the formation of closo-borates with functional groups separated from the cluster by an alkoxyl spacer chain. The purpose of this study is to develop methods for the synthesis of derivatives of the closo-decaborate anion [B10H10]2− with pendant nitrogen-containing groups.Methods. The general control of the reactions of the disclosure of cyclic substituents was carried out on the basis of 11B nuclear magnetic resonance (NMR) spectroscopy data. The structure of the obtained derivatives, including the nature of the attached functional groups, was determined using 1H, 13C attached proton test (APT) NMR and infrared (IR) spectroscopy data. The molecular weight of the synthesized compounds was confirmed by electrospray ionization mass-spectrometry (ESI–MS).Results. The interaction of the anion [2-B10H9O(CH2)4O]− with secondary amines (dimethylamine, dipropylamine, diallylamine, dibutylamine, diisobutylamine, morpholine, di-sec-butylamine) in an ethanol environment is investigated. As a result of the reactions, a cyclic substituent is shown to expand with the addition of a nucleophilic reagent. Seven new derivatives of the closodecaborate anion with pendant nitrogen-containing groups have been synthesized.Conclusions. A developed method for obtaining closo-decaborates with ammonium groups separated from the boron cluster by an alkoxyl spacer group is presented. It is shown that the use of amines of various structures does not fundamentally affect the course of the reactions, allowing the composition and structure of the target derivatives to be effectively regulated. The resulting compounds can be involved in further modification reactions due to a reactive pendant group, as well as being suitable for use as effective polydentate ligands. Closo-decaborates with pendant nitrogen-containing groups and their derivatives are of considerable interest in the synthesis of compounds for use in 10B-neutron capture therapy of malignant tumors.
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