Journal
APPLIED SURFACE SCIENCE
Volume 624, Issue -, Pages -Publisher
ELSEVIER
DOI: 10.1016/j.apsusc.2023.157130
Keywords
Element doping; WO3; Biochar; DFT calculation; Catalytic decomposition
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A novel WO3-based composite (CuX-WO3/Biochar) was designed by doping and loading. Cu as a dopant has the advantages of producing multiple bands and inhibiting grain growth. Biochar, as a carrier, effectively inhibits the agglomeration of nanomaterials. The CuX-WO3/Biochar was applied to catalytic decomposition and laser ignition of energetic materials.
To develop efficient combustion catalyst for solid propellants, a novel WO3-based composite (CuX-WO3/Biochar) was designed by the method of doping and loading. As a dopant, Cu has the advantages of producing multiple bands, inhibiting grain growth and restraining exciton-exciton collisions. Meanwhile, biochar is cheap and available as a carrier, which can effectively inhibit the agglomeration of nanomaterials. Therefore, in this work, Cu-doped WO3 nanoparticles were uniformly anchored on surface of biochar by in-situ solvothermal reaction combined calcination method, which significantly increased the surface-active area, and was firstly applied to catalytic decomposition and laser ignition of ammonium perchlorate (AP), 1,3,5-trinitro-1,3,5-triazacyclohexane (RDX) and 5,5 '-bistetrazole-1,1 '-diolate (TKX-50). With the introduction of CuX-WO3/Biochar, decomposition peak temperature of AP, RDX and TKX-50 diminished by 97.0, 6.7 and 37.9celcius, and activation energy decreased by 14.4, 93.5 and 22.6 kJ mol- 1, respectively. Simultaneously, flame brightness, flame area and flame propa-gation speed during combustion of RDX and TKX-50 were evidently improved after CuX-WO3/Biochar was added. Finally, electron transfer mechanism of catalytic thermal decomposition of energetic materials was deduced based on Density Functional Theory (DFT) calculation and characterization analysis. This study will provide a new insight into development of combustion catalysts.
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