Energetic Tagged Zirconium-Based Metal-Organic Framework: A Novel Catalyst and High Energy Dense Material for Solid Propellants

Abstract

AbstractCatalyst for ammonium percholorate (AP) decomposition was limited to inert particles, with subsequent decrease in main decomposition temperature. Recently much attention has been directed to reactive catalyst particles with high decomposition enthalpy. Energetic metal-organic frameworks (EMOFs) could contribute to the decomposition enthalpy; with the exclusive evolution of catalyst nanoparticles. UiO-66-NH2 is a three-dimensional metal-organic framework (MOF) composed of tetravalent metal ions Zr(IV) and ditopic 2-Amino Terephthalic acid linker (H2ATPT). UiO-66-NH2 is multi-functional MOF with exceptional surface area and thermal stability. UiO-66-NH2 can expose superior combustion enthalpy of 18 KJ/g. This study reports on facile solvothermal synthesis of UiO-66-NH2; that was integrated into ammonium percholorate (AP) matrix via anti-solvent technique. UiO-66-NH2 boosted AP decomposition enthalpy by + 227.3%, with decrease in main decomposition temperature by 92.72 °C. Decomposition kinetics was investigated via isoconversional (model free) and model fitting. Kissinger, Kissinger–Akahira–Sunose (KAS), integral isoconversional method of Ozawa and Flyn and Wall (FWO). UiO-66-NH2/AP demonstrated apparent activation energy of 75 KJ mol− 1 compared with 176.1 KJ mol− 1 for virgin AP. While virgin AP experienced complex decomposition models beginning with F3 to A2; UiO-66-NH2/AP nanocomposite demonstrated A3 decomposition model. The developed UiO-66-NH2 exposed a dual function as high energy dense material with superior catalytic effect due to the exclusive evolution c-ZrO2 nanocatalyst on decomposition.