DSpace at KIST: Microstructures and proton conductivities of BaZrO3 modified by BaCeO3

Microstructures and proton conductivities of BaZrO3 modified by BaCeO3

Authors: Park, J.-S.; Lee, S.-M.; Kim, D.-W.; Lee, J.-H.; Lee, H.-W.; Choi, H.-J.; Kim, B.-K.

Abstract: The dense sintered bodies with >95% theoretical densities were successfully obtained from the BaZrO3, BaCeO3, Ba(Zr 0.7Ce0.3)O3 solid solution, and core-shell structured 0.7BaZrO3-0.3BaCeO3 composite powders prepared by sol-gel methods. The activation energy of Ba(Zr0.7Ce 0.3)O3 solid solution calculated from the Arrhenius plot of the proton conductivities was similar to that of BaZrO3. The activation energy of core-shell structured 0.7BaZrO3-0.3BaCeO 3 composite, however, was much lower than that of BaZrO3 or Ba(Zr0.7Ce0.3)O3 solid solution, and was very similar to that BaCeO3. These results could be assigned to the Ce-rich grain boundary which was clearly observed by EDX in core-shell structured 0.7BaZrO3-0.3BaCeO3 composite.

Keywords: Activation energy; Arrhenius plots; Barium compounds; Chemical activation; Grain boundaries; Proton conductivity; Shells (structures); Sol-gel process; Sol-gels; BaCeO3; BaZrO3; Composite powders; Core shell; Proton-conducting oxides; Sintered body; Theoretical density; Solid solutions; Activation energy; Arrhenius plots; Barium compounds; Chemical activation; Grain boundaries; Proton conductivity; Shells (structures); Sol-gel process; Sol-gels; BaCeO3; BaZrO3; Composite powders; Core shell; Proton-conducting oxides; Sintered body; Theoretical density; Solid solutions; BaCeO3; BaZrO3; Core-Shell; Proton conducting oxide

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