Heterocyclic compounds including the atoms N, O, S, and P have excellent corrosion
inhibition potential due to their ability to coordinate and bond with metallic substrates. For …

Energetic materials include explosives, propellants, and pyrotechnics that are used for a
variety of military purposes and civilian applications. 1Ā3 An explosive is defined as a …

In this review, we document the most recent developments in azo-linked heteroaromatic
(imidazole, pyrazole, triazole, triazine, tetrazine and oxadiazole) high-nitrogen energetic …

Nitrogen-rich heterocyclic compounds offer promising potential backbones for constructing
various high energy density compounds. Selective diazotization of 3, 5-diamino-4 …

We have explored various aspects of the Kamlet-Jacobs equations for estimating detonation
velocities and pressures. While the loading density of the explosive compound is certainly …

A planar energetic molecule with high density, 5, 5′‐dinitramino‐3, 3′‐azo‐1, 2, 4‐
oxadiazole (4), was obtained by the nitration of 5, 5′‐diamino‐3, 3′‐azo‐1, 2, 4 …

Energetic compounds, as a type of special material, are widely used in the fields of national
defense, aerospace and exploration. Their research and production have received growing …

Abstract Bis (4‐nitraminofurazanyl‐3‐azoxy) azofurazan (1) and ten of its energetic salts
were prepared and fully characterized. Computational analysis based on isochemical …

Triazole and 1, 2, 4-triazole have been vigorously used in energetic materials research.
Among these two, 1, 2, 4-triazole has been a widely used backbone in designing new …

Oxadiazole and triazole are extensively investigated heterocyclic scaffolds in the
development of energetic materials. New energetic molecules were designed by replacing …