Continuous and Electrochemical Synthesis of 2,2’,4,4’,6,6’‐Hexanitrostilbene

Abstract: 2,2′,4,4′,6,6′‐Hexanitrostilbene, an excellent thermally stable explosive, has diverse applications in aerospace field. However, current methods for fabricating this compound entail environmental concerns and the generation of undesirable by‐products. To overcome such limitations, in this study, a continuous method based on the use of a static mixer combined with electrochemistry was used to prepare 2,2’,4,4’,6,6’‐hexanitrostilbene for the first time, and the yield of hexanitrostilbene produced by the continuo… Show more

“…In addition, many approaches have been reported to improve the thermal stability of HEDMs, such as molecular design, 14,15 energetic cocrystal, 16−18 and polymer design. 19,20 Molecular design methods improve the thermal stability of HEDMs by introducing hydrogen bonds and π−π stacking noncovalent force.…”

“…In addition, many approaches have been reported to improve the thermal stability of HEDMs, such as molecular design, , energetic cocrystal, − and polymer design. , Molecular design methods improve the thermal stability of HEDMs by introducing hydrogen bonds and π–π stacking noncovalent force. ICM-102, a kind of HEDMs, has been obtained with high energy ( v od = 9169 m·s –1 and P d = 34.3 GPa) and excellent thermal stability (decomposition temperature is 284 °C) .…”

Graphene Oxide-Intercalated Tetrazole-Based Coordination Polymers: Thermally Stable Hybrid Energetic Crystals with Enhanced Photosensitivity

“…In addition, many approaches have been reported to improve the thermal stability of HEDMs, such as molecular design, 14,15 energetic cocrystal, 16−18 and polymer design. 19,20 Molecular design methods improve the thermal stability of HEDMs by introducing hydrogen bonds and π−π stacking noncovalent force.…”

“…In addition, many approaches have been reported to improve the thermal stability of HEDMs, such as molecular design, , energetic cocrystal, − and polymer design. , Molecular design methods improve the thermal stability of HEDMs by introducing hydrogen bonds and π–π stacking noncovalent force. ICM-102, a kind of HEDMs, has been obtained with high energy ( v od = 9169 m·s –1 and P d = 34.3 GPa) and excellent thermal stability (decomposition temperature is 284 °C) .…”

Graphene Oxide-Intercalated Tetrazole-Based Coordination Polymers: Thermally Stable Hybrid Energetic Crystals with Enhanced Photosensitivity

Advancements in methodologies and techniques for the synthesis of energetic materials: A review

Construction of electrochemical flow reactor: Static mixing and micro-cell for dehydrogenation oxidation from TNT to 2,2′,4,4′,6,6′-hexanitrostilbene