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首页> 外文期刊>Journal of thermal analysis and calorimetry >Thermal decomposition mechanism and kinetics of Pd/SiO2 nanocomposites in air atmosphere
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Thermal decomposition mechanism and kinetics of Pd/SiO2 nanocomposites in air atmosphere

机译:Thermal decomposition mechanism and kinetics of Pd/SiO2 nanocomposites in air atmosphere

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SiO2 and Pd/SiO2 nanocomposites were prepared using sol-gel method and characterized by X-ray diffraction, Fourier transform infrared spectra, scanning electron microscopy and different heating rate thermogravimetric-differential thermogravimetric analysis. The apparent activation energies (E-a) were calculated using the Kissinger's and Ozawa's methods. The most probable kinetic mechanism functions were obtained by master plot method. The entropy (S), enthalpy (H) and activation free energy (G) were calculated using three methods. The results demonstrated that the thermal decomposition processes of both materials are the three-step reactions. After thermal condition in air atmosphere, the introduced hydrophobic Si-CH3 group in Pd/SiO2 gel materials was completely decomposed into inorganic composition, and the Pd element was transformed into PdO and metallic Pd. The E-a values obtained by Kissinger's method are close to those by Ozawa's method. The Pd-doping can increase the thermal decomposition activation energies and improve the thermal stability of SiO2 material. The decomposition mechanisms for the three stages are the assumed random nucleation and its subsequent growth, irrespective of the Pd-doping. Compared with SiO2 material, the thermal decomposition of Pd/SiO2 requires more energy due to the increasing H. The H values calculated by method II are nearly equal to the E-a values from the Kissinger's and Ozawa's methods, which indicated that the thermodynamic parameters obtained by method II are the most accurate.

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