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亚标准火箭燃料 1,1-二甲基肼通过其亚甲基衍生物转化为基于吡咯并[3,4c]喹啉、环十二硼[b]吡喃和吡咯的杂环。

Treatment of Substandard Rocket Fuel 1,1-Dimethylhydrazine via Its Methylene Derivative into Heterocycles Based on Pyrrolo-[3,4c]Quinolines, Cyclododeca[b]piran and Pyrrole.

机构信息

Organic and Pharmaceutical Chemistry Department, ssUlyanov Chuvash State University, Moskovsky Prospect, 15, 428015 Cheboksary, Russia.

Organic and Pharmaceutical Chemistry Department, Arbuzov Institute of Organic and Physical Chemistry, FRC Kazan Scientific Center of RAS, Arbuzov Streed, 8, 420088 Kazan, Russia.

出版信息

Int J Mol Sci. 2023 Aug 22;24(17):13076. doi: 10.3390/ijms241713076.

DOI:10.3390/ijms241713076
PMID:37685883
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC10487424/
Abstract

1,1-Dimethylhydrazine (Heptil, rocket fuel (UDMH)) is characterized by extremely high toxicity, teratogenicity and the ability to constantly absorb water from the atmosphere, losing its energy characteristics. In this regard, as well as due to the alternative fuel ("Angara") transition, there is a need for UDMH utilization in huge amounts. A more benign approach involves its immediate reaction with a formalin solution to form 1,1-dimethyl-2-methylene hydrazone (MDH), which is significantly less toxic by an order of magnitude. MDH can then be polymerized under acidic conditions, and the resulting product can be burned, yielding a substantial amount of nitrogen oxides. We propose an alternative to incineration by involving MDH in organic synthesis. We studied the reactions of MDH and its analog N,N-dimethyl-2-(methylenamino)ethane-1-amine (MDEA) with available CH-acids: tetracyanoethylated ketones (TCEKs) based on cyclohexanone, 4-propylcyclohexanone, 2-methylcyclohexanone, cyclododecanone and tetracyanoethane. The structures synthesized were confirmed by IR, H, C NMR and mass spectroscopy methods. MDH-based adducts were also identified by X-ray structural analysis. TCEKs and MDH, as well as TCEK based on cyclohexanone and MDEA, form bi- and tricyclic structures: pyrrolo [3,4c]-quinolines (using TCEKs based on cyclohexanone and 4-propylcyclohexanone), epiminomethanoquinoline-3,4-dicarbonitrile (using TCEK based on 2-methylcyclohexanone) and cyclododec[b]pyran-3,4-dicarbonitrile (using TCEK based on cyclododecanone). MDH and TCNEH formed a pyrrole derivative. Thus, we synthesized the structures that are of interest for molecular design and pharmaceutical chemistry.

摘要

1,1-二甲基肼(Heptil,火箭燃料 UDMH)具有极高的毒性、致畸性和不断从大气中吸收水分的能力,从而丧失其能量特性。因此,以及由于替代燃料(“安加拉”)的过渡,需要大量利用 UDMH。一种更良性的方法是将其立即与福尔马林溶液反应,形成 1,1-二甲基-2-亚甲基腙(MDH),其毒性降低一个数量级。然后可以在酸性条件下使 MDH 聚合,所得产物可以燃烧,产生大量的氮氧化物。我们提出了一种替代焚烧的方法,即将 MDH 用于有机合成。我们研究了 MDH 及其类似物 N,N-二甲基-2-(亚甲基氨基)乙胺(MDEA)与现有 CH 酸:基于环己酮、4-丙基环己酮、2-甲基环己酮、环十二酮和四氰基乙烷的四氰乙基化酮(TCEK)的反应。通过红外、H、C NMR 和质谱方法证实了合成的结构。通过 X 射线结构分析还确定了基于 MDH 的加合物。TCEK 和 MDH,以及基于环己酮和 MDEA 的 TCEK,形成双环和三环结构:吡咯并[3,4c]-喹啉(使用基于环己酮和 4-丙基环己酮的 TCEK)、亚氨基甲硫代甲喹啉-3,4-二腈(使用基于 2-甲基环己酮的 TCEK)和环十二[b]吡喃-3,4-二腈(使用基于环十二酮的 TCEK)。MDH 和 TCNEH 形成了吡咯衍生物。因此,我们合成了对分子设计和药物化学有兴趣的结构。

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