Energetic materials constitute a distinct category of functional compounds that combine the remarkable intensity of high-energy chemistry with the demanding requirements for safety, operational efficiency, and environmental responsibility.
Unexpected reactivity of 6-alkoxy-4-chloro-5-nitropyrimidine. Computational Insights into the reaction mechanism: pre-reactive and meisenheimer complexes.
Exploring the structural diversity of skeletons is a pivotal strategy for seeking new energetic materials.
The powerful but unstable high energy compound ICM-103 is stabilized and desensitized by small molecules H2O, NH3, and H2S.
Heat-resistant energetic materials (HREMs) have been widely studied due to their extremely high application value. This article reviews the representative HREMs in recent years and presents their design principles and future prospects.