Asian Journal of Chemical Sciences

Aims: Our primary purpose is investigating the critical role of simple ammonium cations, different substituents and their synergetic effect in the design of efficient pyrazole-derived salts.

Study Design: The salts composed of pyrazole-derived anions containing different substituents (–NH₂, –NO₂, –N₃, –NF₂, –CN) with some simple energetic cations (NH₄⁺, N₂H₅⁺, ⁺NH₃OH) were designed.

Place and Duration of Study: School of Chemical Engineering, Nanjing University of Science and Technology, between December 2017 and February 2018.

Methodology: The densities and heats of formation (HOFs) of the salts were predicted by using DFT-B3LYP and volume-based thermodynamics methods. Several empirical formulas also studied the detonation performance and impacted sensitivity of the salts.

Results: The results show that for the promotion of energetic performance of the salts, ⁺NH₃OH is the best cation among the three cations. When one substituent is -NO₂, another substitution of the –NO₂, –N₃ or –NF₂ group is helpful for enhancing the densities of the salts and the substitution of –NF₂ group presents the best density. The attachment of –NO₂ group in combination with the –NO₂, –N₃, –NF₂ or –CN group is favorable for improving the HOFs of the salts and the incorporation of –N₃ shows the greatest HOFs. The synergy of –N₃ and –NF₂ group also exhibits the potential to improve the detonation performance of the salts.

Conclusion: By comparing with the commonly used explosives RDX and HMX, we screened out the salts with high energy and acceptable sensitivity.