The dominance of nitro pyrazole-based explosives in the recently reported high-performing
energetic materials motivated us to comprehensively investigate the energy–stability …

Recently, there has been a surge in research focusing on triazolone-based energetic
materials, propelled by their remarkable properties such as good detonation performance as …

Zwitterionic compounds are an emergent class of energetic materials and have gained
synthetic interest of many in the recent years. Due to their better packing efficiencies and …

The field of high energy density materials faces a long-standing challenge to achieve an
optimum balance between energy and stability. While energetic salt formation via a …

gem-Dinitro methyl based high-energy-density material 5-(dinitromethylene)-4, 5-dihydro-1
H-1, 2, 4-triazole (2) and its hydroxylamine salt (4) were synthesized for the first time in a …

The trinitromethyl group plays a crucial role in the energetic material industry due to its high
oxygen balance and energetic properties. This study focuses on the synthesis of …

Trinitromethyl and N-amino groups were innovatively incorporated into the framework of 1,
2, 4-triazole, resulting in 1-amino-5-nitro-3-(trinitromethyl)-1, 2, 4-triazole (2). Ammonium …

Various types of materials have been explored in the pursuit of high energy density
materials (HEDMs) that have balanced energy and stability. Among them, energetic salts …

Abstract Design and synthesis of new energetic materials retains its urgency in chemistry
and materials science. Herein, rational construction and regioselective synthesis of a series …

Behind the synthesis of any new high‐energy density material is the objective to achieve
equilibrium between energy and stability, which becomes laborious because of their …