摘要
Nanocrystalline powder of LaF3 was synthesized by a method of direct precipitation from water solution. Particle size and shape of LaF3 nanocrystalline powder was analysed with TEM. Particles were mainly spherical with narrow particle size distribution (10 20 nm). The average particle size analysed with XRD is 16.7 nm. Nano-LaF3 bulk material was prepared by compacting the powder to 1 GPa at room temperature and a vacuum of 10^-4 Pa. The ionic conductivity of nano-LaF3 bulk material was studied with complex impedance spectra at room temperature. The ionic conductivity of nano-LaF3 bulk material (1 × 10^-5 S·cm^-1 ) at room temperature is significantly increased compared to that of single crystal LaF3 (1 × 10^-6 S·cm^-1). A special phenomenon was observed firstly time that the ionic conductivity increased gradually with multiple testing in result of relaxation.
Nanocrystalline powder of LaF3 was synthesized by a method of direct precipitation from water solution. Particle size and shape of LaF3 nanocrystalline powder was analysed with TEM. Particles were mainly spherical with narrow particle size distribution (10 20 nm). The average particle size analysed with XRD is 16.7 nm. Nano-LaF3 bulk material was prepared by compacting the powder to 1 GPa at room temperature and a vacuum of 10^-4 Pa. The ionic conductivity of nano-LaF3 bulk material was studied with complex impedance spectra at room temperature. The ionic conductivity of nano-LaF3 bulk material (1 × 10^-5 S·cm^-1 ) at room temperature is significantly increased compared to that of single crystal LaF3 (1 × 10^-6 S·cm^-1). A special phenomenon was observed firstly time that the ionic conductivity increased gradually with multiple testing in result of relaxation.
