Low-Power Laser Ignition of an Antenna-Type Secondary Energetic Copper Complex: Synthesis, Characterization, Evaluation, and Ignition Mechanism Studies

Abstract: In recent years, development of new energetic compounds and formulations, suitable for ignition with relatively low-power lasers, is a highly active and competitive field of research. The main goal of these efforts is focused on achieving and providing much safer solutions for various detonator and initiator systems. In this work, we prepared, characterized, and studied thermal and ignition properties of a new laser-ignitable compound, based on the 5,6-bis(ethylnitroamino)-N′2,N′3-dihydroxypyrazine-2,3-bis(car… Show more

“…[1][2][3] The destructive potential of these materials is unveiled through rapid redox reactions, resulting in the instantaneous release of a substantial amount of energy. 4,5 To overcome energy limitations and achieve rapid energy release, researchers have developed a multitude of novel materials, including organic compounds rich in high-energy functional groups, high-energy metastable substances, and cocrystal energetic materials. 6,7 Their objective is to create highly energetic yet insensitive materials.…”

Synthesizing new Bi-structure energetic coordination compounds using ternary components

“…[1][2][3] The destructive potential of these materials is unveiled through rapid redox reactions, resulting in the instantaneous release of a substantial amount of energy. 4,5 To overcome energy limitations and achieve rapid energy release, researchers have developed a multitude of novel materials, including organic compounds rich in high-energy functional groups, high-energy metastable substances, and cocrystal energetic materials. 6,7 Their objective is to create highly energetic yet insensitive materials.…”

Synthesizing new Bi-structure energetic coordination compounds using ternary components

Laser Ignition of Energetic Transition Metal Complexes

Light Sensitive Energetic Materials and Their Laser Initiation