Enhancement of the oxygen storage properties of BaPrMn₂O_5 + δ and BaSmMn₂O_5 + δ oxides by a high-energy milling

A facile, mechanical milling method resulting in a significant improvement of the oxygen release kinetics from cation-ordered BaLnMn₂O_5 + δ-type (Ln: selected lanthanides) materials is shown for Pr- and Sm-containing compounds. Synthesized by a soft chemistry method, BaPrMn₂O₅ and BaSmMn₂O₅ oxides were milled in an appropriately selected conditions, which allowed to obtain samples with largely decreased crystallite size, increased specific surface area, and likely, having a partial Ba-Ln disorder. Such materials were characterized in terms of their oxygen storage-related properties and were found to exhibit enhanced oxygen release kinetics, with a reduction rate parameter being increased several times. The milling process did not influence the mechanism of the oxygen release significantly. A decrease of a characteristic temperature of reduction was also noticed, however, while the oxygen storage capacity of BaSmMn₂O_5 + δ was found to increase after milling, it decreased for BaPrMn₂O_5 + δ. It seems that the enhanced reduction rates can be related to a diminished tendency of a formation of the oxygen vacancy-ordered BaLnMn₂O_5.5. The reported studies are supplemented by scanning electron microscopy and X-ray photoelectron spectroscopy measurements.