Abstract
We report an oxygen ionic conductivity of 0.016 S cm−1 in La2Zr2O7 nanofibers at 500 °C, which is ∼400 times higher than traditional La2Zr2O7 bulk materials. The highly enhanced conductivity of our La2Zr2O7 nanofibers can mainly be attributed to a novel mixed phase structure. We found that a defect fluorite to pyrochlore phase transition occurred at 875 °C. By precise control of calcination conditions, we successfully tuned the ratio of defect fluorite and pyrochlore phases, and further demonstrated that nanofibers with a mixed phase structure have higher conductivity due to an interface lattice mismatch between the two phases. The remarkably high conductivity and facile manufacturing of the La2Zr2O7 nanofibers make them a promising material for high performance SOFCs and oxygen sensors. Moreover, our study provides a new strategy to design solid electrolytes with high conductivity by phase control.
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