Study on catalytic activity and mechanism of tetrazole-based energetic metal-organic frameworks for thermal decomposition of ammonium perchlorate

“…In recent decades, catalysts applied in the field of catalytic AP have been extensively studied, such as metal oxides, metal particles, metal-based composites, and carbon nanomaterials. ,− In this article, Pb­(II) is chosen as the catalyst on the basis of the following considerations: lead metal has a good coordination ability and can easily chelate with multifunctional groups to form salts. The lead salt, as the active catalyst in the solid propulsion system, has a positive impact on the combustion rate and performance of the propellant. , Huo et al introduced a poly­(lead acrylate) (PAA-Pb) porous metal material into the AP catalytic system, and the high-temperature decomposition peak of AP was reduced by 73.7 K .…”

Preparation of a Chitosan-Lead Composite Carbon Aerogel and Its Catalytic Thermal Decomposition Performance on Ammonium Perchlorate

“…In recent decades, catalysts applied in the field of catalytic AP have been extensively studied, such as metal oxides, metal particles, metal-based composites, and carbon nanomaterials. ,− In this article, Pb­(II) is chosen as the catalyst on the basis of the following considerations: lead metal has a good coordination ability and can easily chelate with multifunctional groups to form salts. The lead salt, as the active catalyst in the solid propulsion system, has a positive impact on the combustion rate and performance of the propellant. , Huo et al introduced a poly­(lead acrylate) (PAA-Pb) porous metal material into the AP catalytic system, and the high-temperature decomposition peak of AP was reduced by 73.7 K .…”

Preparation of a Chitosan-Lead Composite Carbon Aerogel and Its Catalytic Thermal Decomposition Performance on Ammonium Perchlorate

Three new energetic coordination polymers based on nitrogen-rich heterocyclic ligand for thermal catalysis of ammonium perchlorate

Design, preparation, and combustion performance of energetic catalysts based on transition metal ions (Cu²⁺, Co²⁺, Fe²⁺) and 3-aminofurazan-4-carboxylic acid