In this study, a series of conventional
polycrystalline ceria and
single-crystalline ceria nanorods and nanocubes were prepared by hydrothermal
methods, and their structural, redox, and morphological properties
were investigated using XRD, SEM, HRTEM, BET, temperature-programmed
reduction, and oxygen storage capacity measurements. According to
HRTEM, they are characterized by exposure of different surfaces: {100}
surface for nanocubes; {100}, {110}, and in part {111} for nanorods;
and mainly {111} for conventional polycrystalline ceria, with a morphology
dominated by {111}-enclosed octahedral particles. The presence of
more-reactive exposed surfaces affects the reaction of soot oxidation
positively, with an increase in activity in nanoshaped materials compared
with conventional ceria. Thermal aging, although detrimental for surface
area, is shown to affect morphology by promoting irregular truncation
of edges and corners and development of more reactive surface combinations
in all crystal shapes. It is likely that thermal treatment, starting
from either cubes or octahedral particles, induces the formation of
a similar particle geometry whose activity is dependent on the type
of plane exposed and by the number an extension of edge and corners,
thus linking reactivity of octahedral particles in conventional ceria
powders with that of cubes in nanoshaped materials. The results indicate
that soot oxidation is also a surface-dependent reaction, and catalyst
design for this purpose should allow for surface structure morphology
and its evolution against temperature.
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