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两种含能区域异构体:3(4)-(4-氨基呋咱-3-基)-4(3)-(4-硝基呋咱-3-基)呋咱的结构、热稳定性及能量性能的对比研究

A comparative study of the structures, thermal stabilities and energetic performances of two energetic regioisomers: 3(4)-(4-aminofurazan-3-yl)-4(3)-(4-nitrofurazan-3-yl)furoxan.

作者信息

Zhang Jiarong, Bi Fuqiang, Zhai Lianjie, Huo Huan, Yang Zhi, Wang Bozhou

机构信息

School of Chemistry and Chemical Engineering, Beijing Institute of Technology Beijing 100081 PR China.

Xi'an Modern Chemistry Research Institute Xi'an 710065 PR China

出版信息

RSC Adv. 2020 Aug 27;10(53):31800-31807. doi: 10.1039/d0ra06186g. eCollection 2020 Aug 26.

DOI:10.1039/d0ra06186g
PMID:35518131
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC9056566/
Abstract

Although energetic regioisomers have attracted intensive attention due to their interesting structure-property correlation, their effective synthesis and accurate identification has remained very difficult. In this paper, we synthesized two energetic regioisomers, namely 3-(4-aminofurazan-3-yl)-4-(4-nitrofurazan-3-yl)furoxan (ANFF-34) and 4-(4-aminofurazan-3-yl)-3-(4-nitrofurazan-3-yl)furoxan (ANFF-43), a controllable strategy with improved yields of 32% and 38%, respectively. The structures of ANFF-34 and ANFF-43 were unambiguously identified using comparative studies of N NMR and single-crystal X-ray diffraction. Moreover, their thermal behaviours, and non-isothermal thermodynamic parameters were systematically investigated. Both ANFF-34 ( : 116.2 °C, : 255.4 °C) and ANFF-43 ( : 106.2 °C, : 255.6 °C) have similar thermal decomposition processes to that of DNTF. The superior performances of ANFF-34 (: 1.8 g cm, : 8214 m s, : 30.5 GPa, IS > 40 J) and ANFF-43 (: 1.7 g cm, : 7868 m s, : 27.0 GPa, IS > 40 J) indicate their great potential to be used as melt-cast carrier explosives. This study provides a solid foundation for the design and synthesis of new energetic compounds through isomer effects.

摘要

尽管高能区域异构体因其有趣的结构-性能相关性而备受关注,但其有效合成和准确鉴定仍然非常困难。本文中,我们合成了两种高能区域异构体,即3-(4-氨基呋咱-3-基)-4-(4-硝基呋咱-3-基)呋咱(ANFF-34)和4-(4-氨基呋咱-3-基)-3-(4-硝基呋咱-3-基)呋咱(ANFF-43),分别采用可控策略使产率提高到32%和38%。通过核磁共振氮谱和单晶X射线衍射的对比研究,明确鉴定了ANFF-34和ANFF-43的结构。此外,还系统研究了它们的热行为和非等温热力学参数。ANFF-34(熔点:116.2℃,分解温度:255.4℃)和ANFF-43(熔点:106.2℃,分解温度:255.6℃)的热分解过程与DNTF相似。ANFF-34(密度:1.8 g/cm³,爆速:8214 m/s,爆压:30.5 GPa,撞击感度>40 J)和ANFF-43(密度:1.7 g/cm³,爆速:7868 m/s,爆压:27.0 GPa,撞击感度>40 J)的优异性能表明它们作为熔铸载体炸药具有巨大潜力。本研究为通过异构体效应设计和合成新型含能化合物提供了坚实基础。

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