4.5 Article

Rational design of hierarchically micrometer scaled macro-mesoporous ceria-zirconia composites for enhancing diesel soot catalytic combustion performance

Journal

MOLECULAR CATALYSIS
Volume 535, Issue -, Pages -

Publisher

ELSEVIER
DOI: 10.1016/j.mcat.2022.112825

Keywords

Soot catalytic oxidation; Catalyzed diesel particulate filter; Particulate matter purification; Soot-catalyst contact efficiency; macro-mesoporousCeO2-ZrO2

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In this study, a hierarchically porous ceria-zirconia composite with micrometer scaled macroporous structure, CZ-8, was developed for enhancing catalyst-soot contact efficiency and soot catalytic combustion performance. The CZ-8 catalyst showed definite micrometer scaled macroporous (0.5-5.0 mu m) and interconnected mesoporous (-20 nm) structure. Compared to conventional mesoporous ceria-zirconia catalysts, the CZ-8 catalyst allowed the entry of filamentous diesel soot particulate into micrometer-scaled pores, improving contact efficiency, and facilitating oxygen-soot contact through mesopores. The CZ-8 catalyst displayed a significantly lower light-off temperature and better soot catalytic combustion performance, suggesting the promising potential of hierarchically porous structures in controlling diesel exhaust particulate emissions.
Diesel soot particulate is the primary source of urban atmospheric fine particulate matters (PM2.5), catalytic soot elimination on diesel participate filter is invariably an important yet challenging subject, because of the inherently poor solid-solid contact of soot-catalyst. In this study, we report a hierarchically porous ceria-zirconia composite with micrometer scaled macroporous structure, CZ-8, for enhancing catalyst-soot contact efficiency and soot catalytic combustion performance. Scanning electron microscope (SEM), N2 adsorption-desorption and mercury porosimetry results demonstrate that the CZ-8 catalyst has definite micrometer scaled macroporous (0.5-5.0 mu m) and interconnected mesoporous (-20 nm) structure. Raman and X-ray diffraction (XRD) results show that the dominant crystal structure of the CZ-8 is cubic fluorite and the relatively larger crystalline grain contribute to the macroporous structure construction. The filamentous diesel soot particulate (hundreds nano -meters or even several micrometers) is difficult to enter the pores of the conventional mesoporous ceria-zirconia catalysts. Nonetheless, it can enter the micrometer scaled pores of the CZ-8 and hence improve the soot-catalyst contact efficiency, and oxygen can efficiently contact with soot-catalyst through the mesopores. Accordingly, the CZ-8 catalyst displays a significantly lower light-off temperature and better soot catalytic combustion perfor-mance under loose and tight contact conditions. Thus, this work suggests that enhancing solid(soot)-solid (catalyst)-gas(oxygen) contact efficiency by hierarchically porous structure with micrometer scaled macro -pores of catalyst is a promising new pathway for improving soot catalytic combustion performance and con-trolling diesel exhaust particulate emissions.

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