In this study, atomically ordered
intermetallic Pt5La
nanoparticles (NPs) were successfully prepared using a relatively
simple wet chemical process. X-ray diffraction measurements were carried
out to determine the crystal structures of the prepared catalysts.
The transmission electron microscopy results revealed that the Pt5La NPs with a size of 3–15 nm were distributed on the
carbon surface. The crystal structure of the Pt–La alloy depended
on the annealing temperature. A face-centered cubic-type (i.e., a
disordered phase) structure was formed at temperatures less than 700
°C, while a CaCu5-type structure (i.e., an ordered
phase) could be formed at 800 °C. The prepared Pt5La NPs exhibited oxygen reduction reaction (ORR) specific (1.39 mA
cm–2) and mass (0.657 A mg–1)
activities approximately 3.7 and 5.1 times higher than those of commercially
available Pt NPs on carbon, respectively. Furthermore, the as-prepared
NPs showed enhanced ORR durability. The enhanced ORR activity was
evaluated through surface analysis using high-angle annular dark-field
scanning transmission electron microscopy and X-ray photoelectron
spectroscopy. The significantly enhanced ORR activity of the ordered
Pt5La NPs was due to their compressive strain and rich
atomic steps. The findings of this study will be helpful in the development
of electrocatalysts with high electrochemical activity.
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