期刊
JOURNAL OF THE AMERICAN CHEMICAL SOCIETY
卷 140, 期 48, 页码 16488-16494出版社
AMER CHEMICAL SOC
DOI: 10.1021/jacs.8b05106
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资金
- Fundamental Research Funds for the Central Universities [30917011101]
- Priority Academic Program Development of jiangsu Higher Education Institutions (PAPD)
- National Natural Science Foundation of China [21701077]
A breakthrough in polynitrogen chemistry was recently achieved by our bulk synthesis of (N-5)(6)(H3O)(3)(NH4)(4)Cl in which the cyclo-pentazolate anions were stabilized extensively by hydrogen bridges with the NH4+ and OH3+ cations. Significant efforts have been carried out to replace these nonenergetic cations and the Cl- anion by more energetic cations. In this paper, the metathetical syntheses of cyclo-pentazolate salts containing the simple nitrogen-rich cations NH4+, NH3OH+, N2H5+, C(NH2)(3)(+), and N(CH3)(4)(+) are reported. These salts were characterized by their crystal structures; vibrational, mass, and multinuclear NMR spectra; thermal stability measurements; sensitivity data; and performance calculations. It is shown that the cyclo-pentazolates are more energetic than the corresponding azides but are thermally less stable decomposing in the range of 80 degrees C to 105 degrees C. As explosives, the hydrazinium and hydroxyl ammonium salts are predicted to match the detonation pressure of RDX but exhibit significantly higher detonation velocities than RDX and HMX with comparable impact and friction sensitivities. Although the ammonium salt has a lower detonation pressure than RDX, its detonation velocity also exceeds those of RDX and HMX. As a rocket propellant, the hydrazinium and hydroxyl ammonium salts are predicted to exceed the performances of RDX and HMX. The crystal structures show that the cyclo-pentazolate anions are generally stabilized by hydrogen bonds to the cations, except for the N(CH3)(4)(+) salt which also exhibits strong cation-pi interactions. This difference in the anion stabilization is also detectable in the vibrational spectra which show for the N(CH3)(4)(+) salt a decrease in the cyclo-N-s(-) stretching vibrations of about 20 cm(-1).
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