Abstract It is of great significance to balance energy capability and molecular stability via structural modulation. By combining of oxygen-rich fluorodinitromethyl moiety and nitrogen-rich tetrazole ring, a superior energetic material,… Click to show full abstract
Abstract It is of great significance to balance energy capability and molecular stability via structural modulation. By combining of oxygen-rich fluorodinitromethyl moiety and nitrogen-rich tetrazole ring, a superior energetic material, 3-(1H-tetrazol-5-yl)-4-fluorodinitromethylfuroxan (FTFO), was synthesized and fully characterized by IR and NMR spectra, elemental analysis, differential scanning calorimetry (DSC). Comprehensive single-crystal analysis reveals the key role of hydrogen bonds, short contacts, as well as π-π interactions in the formation of 1D molecular chain, 2D molecular layer and 3D stacking of FTFO, respectively. The interesting structure results in desirable high heat of formation (326.4 kJ mol−1), good oxygen balance (−11.6%) and high density (1.89 g cm−3), which further lead to the expected performances including high detonation velocity (8923 m s−1) and detonation pressure (36.3 GPa). These fascinating properties make it attractive in the application of solid rocket propellants and high-performing explosives.
               
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