Amorphous nanomaterials have drawn extensive attention
owing to
their unique features, while amorphization on noble metal nanomaterials
still remains formidably challenging. Herein, we demonstrate a universal
strategy to synthesize amorphous Pd-based nanomaterials from unary
to quinary metals through the introduction of phosphorus (P). The
amorphous Pd-based nanoparticles (NPs) exhibit generally promoted
oxygen reduction reaction (ORR) activity and durability compared with
their crystalline counterparts. Significantly, the quinary P-PdCuNiInSn
NPs, benefiting from the amorphous structure and multimetallic component
effect, exhibit mass activities as high as 1.04 A mgPd–1 and negligible activity decays of 1.8% among the
stability tests, which are much better than values for original Pd
NPs (0.134 A mgPd–1 and 28.4%). Experimental
and theoretical analyses collectively reveal that the synergy of
P-induced amorphization and the expansion of metallic components can
considerably lower the free energy changes in the rate-determined
step, thereby explaining the positive correlation with the catalytic
activity.