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1,3,4-Oxadiazole-Bridged 3,5-Dinitropyrazoles: Powerful Alliance toward High Performance and High Thermal Stability

Krishna Pandey, Priyanka Das, Amit Bijlwan, Dheeraj Kumar

2025The Journal of Organic Chemistry20 citationsDOI

Abstract

The ever-increasing demand for heat-resistant energetic materials in deep mining and space exploration has led to significant interest in developing new materials with exceptional thermal stability and detonation performance. In this work, a novel heat-resistant energetic compound, 2,5-bis(3,5-dinitro-1 H -pyrazol-4-yl)-1,3,4-oxadiazole ( 3 ), was achieved through a simple and straightforward method where two 3,5-dinitropyrazole moieties are linked through a 1,3,4-oxadiazole ring. Compound 3, a symmetrical conjugated molecule, demonstrates superior thermal stability ( T dec = 325 °C), good energetic performance ( D v = 8464 m s –1 ), and improved physical stability (IS = 7.5 J) compared to the industrially used heat-resistant explosive, HNS. The properties of 3 were further optimized by forming energetic salts, 4 and 5 . An attempted reaction to synthesize zwitterionic compound 7, having 3,5-dinitropyrazole and 3,5-diamino-1,2,4-triazole ring connected via a C–C bond, resulted in another zwitterionic compound 6 . Energetic salts 4 ( T dec = 291 °C) and 5 ( T dec = 275 °C), as well as zwitterionic compound 6 ( T dec = 286 °C), demonstrated excellent decomposition temperatures with good physical stability. The dihydroxylammonium salt ( 5 ) ( D v = 8507 m s –1, P = 31.25 GPa) exhibited the best energetic properties, approaching the performance of RDX. The remarkable overall performance of compounds 3 - 5 makes them suitable candidates for high-performance, heat-resistant explosives.

Topics & Concepts

OxadiazoleAllianceThermal stabilityMaterials scienceThermalStability (learning theory)Computer scienceChemistryChemical engineeringEngineeringPhysicsThermodynamicsOrganic chemistryPolitical scienceMachine learningLawEnergetic Materials and CombustionThermal and Kinetic AnalysisChemical Thermodynamics and Molecular Structure