Lattice strain dependent on ionic conductivity of Ce0.8 + xY0.2 − 2xSrxO1.9 (x = 0–0.08) electrolyte

Abstract Y and Sr co-doped ceria (Ce 0.8 + x Y 0.2 − 2x Sr x O 1.9 ) samples which have the fixed oxygen vacancies concentrations, were synthesized by a gel combustion method followed by the common ceramic preparation process, and the effect of co-doping on the ionic conductivity was investigated. XRD results confirmed cubic fluorite structure in the samples. The lattice constant increases with increasing Sr content, and different strains of the compressive strain and the tensile strain exist in different samples. The sintered samples with the relative density of about 92% showed well defined grains, good densification with few closed pores. The activation energies of co-doped ceria decreased, reached a minimum and then increased with the increasing of Sr 2 + concentration. The ionic conductivity of co-doped ceria increased with increasing Sr 2 + doping concentration, reached a maximum and then decreased at higher doping level. The variation of the ionic conductivity and the activation energy with increasing Sr 2 + doping concentration can be attributed to the different strain state in samples. The activation energy reached a minimum value and conductivity reached a maximum value for YSDC-05. The conductivity of YSDC-05 at 600 °C, 700 °C and 800 °C reached 0.0058 S·cm − 1 , 0.0088 S·cm − 1 and 0.0099 S·cm − 1 , respectively.