Abstract
The detailed decomposition pathway of ammonium perchlorate (AP) is important for the design of solid propellants containing AP. In this paper, the possible decomposition reactions of AP upon nitrogen-doped graphene (N-Gr) as a catalyst are investigated via density functional theory. The reaction pathways of HClO(4) and NH(3) on the N-Gr surface are explored. The decomposition reaction path of the HClO(4) molecule on the N-Gr is HClO(4) → ClO3- → ClO2- → ClO(-) → Cl(-). The rate-determining step of the process is the Cl-O bond-breaking reaction of ClO2- anions, and the activation energy of the reaction is 0.849 eV. The oxidation of the N-Gr surface promotes the decomposition of both HClO(4) and NH(3). The OH groups produced during the decomposition process can promote the adsorption and decomposition of NH(3). This work provides new insights into the decomposition of AP on N-Gr at the molecular level.