Novel High-Energy Ionic Molecules Deriving from New Monovalent and Divalent 4-Oxyl-3,5-dinitropyrazolate Moieties

In recent years, the exploration of a practical strategy for novel energetic molecules with high energy and low sensitivity is very desirable but highly challenging. Novel ionic energetic molecules have attracted much attention in this area due to their prominent advantages including low sensitivities, high thermal stability, and excellent energy performances. Herein, five different ionic energetic molecules based on new monovalent and divalent 4-oxyl-3,5-dinitropyrazolate moieties with enhanced oxygen balance have been synthesized, characterized and evaluated as potential high-energy materials. Thermal stability, sensitivities and energy output test were measured and studied in detail. The heats of formation and energetic parameters were calculated by using Gaussian 09 suite of programs and EXPLO 5 code. The results suggest that all as-prepared new molecules exhibit good thermal stability with high decomposition temperature (3, 231 degrees C; 5, 160 degrees C; 6, 185 degrees C; 7, 180 degrees C; 8, 213 degrees C), and relative low sensitivity (IS > 20 J, FS = 324 N). Inheriting the significant oxygen content of monovalent and divalent 4-oxyl-3,5-dinitropyrazolate moieties, they also possess good energy properties (v(D) = 8238 similar to 9208 m s(-1), P = 26.8 similar to 36.7 GPa, V-o = 481.8 similar to 959.4 L kg(-1)), which make them competitive high-energy materials. [GRAPHICS] .