Gálvez-Ruiz Juan Carlos, Holl Gerhard, Karaghiosoff Konstantin, Klapötke Thomas M, Löhnwitz Karolin, Mayer Peter, Nöth Heinrich, Polborn Kurt, Rohbogner Christoph J, Suter Max, Weigand Jan J
Inorganic Chemistry, Ludwig-Maximilian University of Munich, Butenandtstrasse 5-13 (Haus D), 81377 Munich, Germany.
Inorg Chem. 2005 Jun 13;44(12):4237-53. doi: 10.1021/ic050104g.
1,5-Diamino-1H-tetrazole (2, DAT) can easily be protonated by reaction with strong mineral acids, yielding the poorly investigated 1,5-diaminotetrazolium nitrate (2a) and perchlorate (2b). A new synthesis for 2 is introduced that avoids lead azide as a hazardous byproduct. The reaction of 1,5-diamino-1H-tetrazole with iodomethane (7a) followed by the metathesis of the iodide (7a) with silver nitrate (7b), silver dinitramide (7c), or silver azide (7d) leads to a new family of heterocyclic-based salts. In all cases, stable salts were obtained and fully characterized by vibrational (IR, Raman) spectroscopy, multinuclear NMR spectroscopy, mass spectrometry, elemental analysis, X-ray structure determination, and initial safety testing (impact and friction sensitivity). Most of the salts exhibit good thermal stabilities, and both the perchlorate (2b) and the dinitramide (7c) have melting points well below 100 degrees C, yet high decomposition onsets, defining them as new (7c), highly energetic ionic liquids. Preliminary sensitivity testing of the crystalline compounds indicates rather low impact sensitivities for all compounds, the highest being that of the perchlorate (2b) and the dinitramide (7c) with a value of 7 J. In contrast, the friction sensitivities of the perchlorate (2b, 60 N) and the dinitramide (7c, 24 N) are relatively high. The enthalpies of combustion (Delta(c)H degrees ) of 7b-d were determined experimentally using oxygen bomb calorimetry: Delta(c)H degrees (7b) = -2456 cal g(-)(1), Delta(c)H degrees (7c) = -2135 cal g(-)(1), and Delta(c)H degrees (7d) = -3594 cal g(-)(1). The standard enthalpies of formation (Delta(f)H degrees ) of 7b-d were obtained on the basis of quantum chemical computations using the G2 (G3) method: Delta(f)H degrees (7b) = 41.7 (41.2) kcal mol(-)(1), Delta(f)H degrees (7c) = 92.1 (91.1) kcal mol(-)(1), and Delta(f)H degrees (7d) = 161.6 (161.5) kcal mol(-)(1). The detonation velocities (D) and detonation pressures (P) of 2b and 7b-d were calculated using the empirical equations of Kamlet and Jacobs: D(2b) = 8383 m s(-)(1), P(2b) = 32.2 GPa; D(7b) = 7682 m s(-)(1), P(7b) = 23.4 GPa; D(7c) = 8827 m s(-)(1), P(7c) = 33.6 GPa; and D(7d) = 7405 m s(-)(1), P(7d) = 20.8 GPa. For all compounds, a structure determination by single-crystal X-ray diffraction was performed. 2a and 2b crystallize in the monoclinic space groups C2/c and P2(1)/n, respectively. The salts of 7 crystallize in the orthorhombic space groups Pna2(1) (7a, 7d) and Fdd2 (7b). The hydrogen-bonded ring motifs are discussed in the formalism of graph-set analysis of hydrogen-bond patterns and compared in the case of 2a, 2b, and 7b.
1,5 - 二氨基 - 1H - 四唑(2,DAT)与强无机酸反应很容易质子化,生成研究较少的硝酸1,5 - 二氨基四唑鎓(2a)和高氯酸1,5 - 二氨基四唑鎓(2b)。本文介绍了一种新的2的合成方法,该方法避免了叠氮化铅这种有害副产物的产生。1,5 - 二氨基 - 1H - 四唑与碘甲烷(7a)反应,随后碘化物(7a)与硝酸银(7b)、二硝酰胺银(7c)或叠氮化银(7d)进行复分解反应,得到了一个新的基于杂环的盐类家族。在所有情况下,均获得了稳定的盐,并通过振动光谱(红外、拉曼)、多核核磁共振光谱、质谱、元素分析、X射线结构测定以及初始安全性测试(撞击和摩擦敏感性)对其进行了全面表征。大多数盐表现出良好的热稳定性,高氯酸盐(2b)和二硝酰胺盐(7c)的熔点均远低于100℃,但分解起始温度较高,将它们定义为新型的(7c)高能离子液体。对结晶化合物的初步敏感性测试表明,所有化合物的撞击敏感性都相当低,其中最高的是高氯酸盐(2b)和二硝酰胺盐(7c),其值为7 J。相比之下,高氯酸盐(2b,60 N)和二硝酰胺盐(7c,24 N)的摩擦敏感性相对较高。使用氧弹量热法通过实验测定了7b - d的燃烧焓(ΔcH°):ΔcH°(7b) = -2456 cal g⁻¹,ΔcH°(7c) = -2135 cal g⁻¹,ΔcH°(7d) = -3594 cal g⁻¹。基于使用G2(G3)方法的量子化学计算获得了7b - d的标准生成焓(ΔfH°):ΔfH°(7b) = 41.7(41.2)kcal mol⁻¹,ΔfH°(7c) = 92.1(91.1)kcal mol⁻¹,ΔfH°(7d) = 161.6(161.5)kcal mol⁻¹。使用Kamlet和Jacobs的经验方程计算了2b和7b - d的爆速(D)和爆压(P):D(2b) = 8383 m s⁻¹,P(2b) = 32.2 GPa;D(7b) = 7682 m s⁻¹,P(7b) = 23.4 GPa;D(7c) = 8827 m s⁻¹,P(7c) = 33.6 GPa;D(7d) = 7405 m s⁻¹,P(7d) = 20.8 GPa。对所有化合物都进行了单晶X射线衍射结构测定。2a和2b分别结晶于单斜空间群C2/c和P2(1)/n。7的盐结晶于正交空间群Pna2(1)(7a,7d)和Fdd2(7b)。在氢键模式的图形集分析形式中讨论了氢键环基序,并在2a、2b和7b的情况下进行了比较。
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