Characterization and Synthesis of Additive Coated BaTiO3 Nano-Powder

Jung Min Lee; Myoung Pyo Chun; Hyo Soon Shin; Byung Ik Kim; Jong Heun Lee

doi:10.4028/www.scientific.net/AMR.881-883.964

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Characterization and Synthesis of Additive Coated BaTiO3 Nano-Powder

Abstract:

Two different BaTiO₃ (160nm) nanopowders coated with Y and with Dy were fabricated by an aqueous chemical coating method, and their dielectric properties and microstructures were investigated with X-ray diffraction, Impedance analyzer, SEM and TEM. Y and Dy were coated on the BaTiO₃ powder using nitrates. Coated BaTiO₃ powders were pressed in a disk shape and sintered at 1150~1200°C for 2 hours in reduced atmosphere of 10%H₂- 90%N₂. Coating layer of the BaTiO₃ particle was thin with a thickness of 3 ~ 5nm. Coated BaTiO₃ sintered sample exhibited a larger lattice parameter (a, c) and smaller tetragonality (c/a) than pure BaTiO₃one. Y coated BaTiO₃sample sintered at 1200°C showed good dielectric properties with a high dielectric constant of around 2000 and a stable temperature coefficient of capacitance (TCC).