Study on hydrothermal deactivation of Pt/MnO x -CeO2 for NO x -assisted soot oxidation: redox property, surface nitrates, and oxygen vacancies

Zhang, Hailong; Li, Shanshan; Lin, Qingjin; Feng, Xi; Chen, Yaoqiang; Wang, Jianli

Study on hydrothermal deactivation of Pt/MnO x -CeO2 for NO x -assisted soot oxidation: redox property, surface nitrates, and oxygen vacancies

2018

The study mainly focuses on surface properties to investigate the deactivation factors of Pt/MnO ₓ -CeO₂ by H₂ temperature-programmed reduction, CO chemical adsorption, NO ₓ -temperature-programmed desorption (TPD), O₂-TPD, NO temperature-programmed oxidation, SEM, TEM, in situ diffuse reflectance infrared Fourier transform spectra, Raman, and thermogravimetric methods. The results show that there are three main factors to lead to hydrothermal deactivation of the catalyst: redox property, oxygen vacancy, and surface nitrates. The loss of oxygen vacancies decreases the generation and desorption of active oxygen and that of surface nitrates weakens the production of NO₂ and surface peroxides (-O₂⁻). These factors greatly result in the damage of the C-NO₂-O₂ cooperative reaction.

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