Electrochemical in-situ synthesis of Cu/ICM-101 films for functional energetic chips

“…In this work, Co­(BODN)·9H 2 O (BODN = [2,2′-bi­{1,3,4-oxadiazole}]-5,5′-dinitramide) was synthesized through electrochemical in situ synthesis, which provides a novel approach to synthesizing energetic combustion catalysts. Electrochemical synthesis was designed because it is not only simple, green, and efficient, but it can also effectively control the thickness and size of the generated crystals by adjusting the reaction time, voltage, and current . BODN was selected as the ligand because it exhibits excellent energy performance.…”

“…Electrochemical synthesis was designed because it is not only simple, green, and efficient, but it can also effectively control the thickness and size of the generated crystals by adjusting the reaction time, voltage, and current. 43 BODN was selected as the ligand because it exhibits excellent energy performance. Its theoretical density, heat of formation, detonation pressure, and detonation velocity can reach as high as 1.99 g•cm −3 , 166.8 kJ•mol −1 , 41.9 GPa, and 9481 m•s −1 , 44 respectively.…”

Electrochemical Synthesis of the Energetic Combustion Catalyst Co(BODN)·9H₂O and Its Catalytic Effect on Ammonium Perchlorate Thermal Decomposition

“…In this work, Co­(BODN)·9H 2 O (BODN = [2,2′-bi­{1,3,4-oxadiazole}]-5,5′-dinitramide) was synthesized through electrochemical in situ synthesis, which provides a novel approach to synthesizing energetic combustion catalysts. Electrochemical synthesis was designed because it is not only simple, green, and efficient, but it can also effectively control the thickness and size of the generated crystals by adjusting the reaction time, voltage, and current . BODN was selected as the ligand because it exhibits excellent energy performance.…”

“…Electrochemical synthesis was designed because it is not only simple, green, and efficient, but it can also effectively control the thickness and size of the generated crystals by adjusting the reaction time, voltage, and current. 43 BODN was selected as the ligand because it exhibits excellent energy performance. Its theoretical density, heat of formation, detonation pressure, and detonation velocity can reach as high as 1.99 g•cm −3 , 166.8 kJ•mol −1 , 41.9 GPa, and 9481 m•s −1 , 44 respectively.…”

Electrochemical Synthesis of the Energetic Combustion Catalyst Co(BODN)·9H₂O and Its Catalytic Effect on Ammonium Perchlorate Thermal Decomposition

Electrophoretic assembly of Al/CuBi2O4 based-energetic films and the effect of destructive behavior with fuel/oxidant ratio

Ultra-fast, Self-destructing technology based on autocatalytic energetic conductive ink