It
is important to understand the reduction processes of mixed
metal oxides or metal oxide interfaces in three-way catalytic reactions
toward replacing the currently used high-cost Pt group metal catalysts.
The redox behavior of simple Ni–Cu alloy catalysts, which exhibit
high catalytic activity and durability during a three-way catalytic
reaction, was studied by operando X-ray absorption
spectroscopy (XAS). The operando XAS analyses revealed
that Ni–Cu species changed from the NiO–Cu2O to Ni–Cu alloy and vice versa under reductive and oxidative
conditions, respectively. The real-time monitoring of the oxidation
states of Ni and Cu species indicated that the Cu species assisted
the reduction of Ni species, in agreement with the density functional
theory-based study of NiO reduction by carbon monoxide in the presence
of metallic Cu nanoparticles.