Cobalt oxide system Co3O4-CoO has been studied on the ZrO2 matrix surf
aces with FTIR and XPS. The tetragonal and monoclinic ZrO2 matrix mate
rials have been synthesized from the Zr-n-propoxide-acetylacetone-wate
r-isopropanol system. The study shows that the ZrO2 matrix is able to
retain the relative Co3O4 : CoO population at elevated temperatures. T
he thermodynamically stable oxide population (Co3O4 : CoO) at room tem
perature for ZrO2-supported Co3O4-CoO is about 50 : 50 (Co2+ : Co3+ =
2 : 1), which is markedly different from the 100:0 case (Co2+ : Co3+ =
1 : 2) for an unsupported Co3O4-CoO surface oxide system. The relativ
e Co3O4 : CoO ratio in the surface region of the ZrO2 is temperature d
ependent but matrix-polymorph independent. The composition of an oxide
solid solution formed by the Co3O4-CoO and matrices of ZrO2 is determ
ined to have a cobalt molar percentage of 4.5%. Diffusion thermodynami
c quantities are investigated, and the measured diffusion activation e
nergy for a cobalt ion in the ZrO2 matrices is 0.21 eV. The mechanism
of the ZrO2 memory effect on surface Co3O4-CoO transition will also be
addressed.