Morphology-controlled synthesis of 3D, mesoporous, rosette-like CeCoOx catalysts by pyrolysis of Ce[Co(CN) 6 ] and application for the catalytic combustion of toluene

Morphology-controlled synthesis of 3D, mesoporous, rosette-like CeCoOx catalysts by pyrolysis of Ce[Co(CN) 6 ] and application for the catalytic combustion of toluene

We synthesized one-dimensional (1D) nanoparticles, 2D hexagonal nanosheets and 3D rosettes of Ce[Co(CN) ] by a hydrothermal process at different temperatures, and CeCoOx catalysts with similar shapes were obtained by the pyrolysis of Ce[Co(CN) ]. T of 1D nanoparticles, 2D hexagonal nanosheets and 3D...

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Veröffentlicht in:Nanoscale 2018-12, Vol.10 (45), p.21307-21319
Hauptverfasser: Han, Weiliang, Zhao, Haijun, Dong, Fang, Tang, Zhicheng
Format: Artikel
Sprache:eng
Schlagworte:
Catalysis
Catalysts
Catalytic activity
Cerium
Chemical synthesis
Combustion
Moisture resistance
Morphology
Nanoparticles
Nanostructure
Organic chemistry
Pyrolysis
Thermal resistance
Thermal stability
Toluene
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Zusammenfassung:We synthesized one-dimensional (1D) nanoparticles, 2D hexagonal nanosheets and 3D rosettes of Ce[Co(CN) ] by a hydrothermal process at different temperatures, and CeCoOx catalysts with similar shapes were obtained by the pyrolysis of Ce[Co(CN) ]. T of 1D nanoparticles, 2D hexagonal nanosheets and 3D rosette-like CeCoOx catalysts was 306, 275 and 168 °C, respectively. The 3D ordered mesoporous rosettes of CeCoOx had superior catalytic activity for toluene combustion, superior thermal stability and moisture resistance, and curves for three consecutive catalytic runs showed overlapping due to more oxygen vacancies, larger pore sizes, more surface Ce species, more surface Co species, and chemically adsorbed oxygen on the surface.
ISSN:2040-3364
2040-3372
DOI:10.1039/c8nr07882c