A nitrate-based nickel salt was used to prepare NiO-BaCe0.54Zr0.36Y0.1O2.95 (NiO-BCZY) composite powders by an evaporation
and decomposition of solution and suspension (EDSS) method. The prepared powders with different weight ratios of NiO to
BCZY (NiO:BCZY) were denoted as S1 (50:50) and S2 (60:40). The powders were characterized using Thermogravimertic
analyzer (TGA), X-ray diffractometer (XRD) and scanning electron microscope (SEM) equipped with energy dispersive
X-ray (EDX) spectrometer. TGA results showed that the thermal decomposition of intermediate compounds in the dried
powder (T = 150°C) completed at ~700°C. XRD analysis confirmed that the calcined powder (T = 1100°C) of S1 and
S2 did not show any crystalline peaks related to BCZY compound as the peaks associated to impurity phases of BaCeO3
and BaZrO3
were appeared in their XRD patterns. The impurity phases along with NiO still remained in the S1 sample
after it was calcined at 1400°C. As the calcination temperature increased, the particles size of S1 also increased and Zr
elemental composition deviates from the nominal stoichiometric of the NiO-BCZY as proven by SEM/EDX analysis. The
results indicate that the formation of homogenize NiO-BCZY composite prepared using EDSS method was not favored even
after calcined at high temperature (T = 1400°C).