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Calcination temperature effect on dielectric, structural and morphology properties of BaTiO3 nano-structure prepared by modified sol-gel technique

Abstract : The motivation of this work was to improve the dielectric properties of nano-structure BaTiO3 prepared in powder form, using a modified sol-gel method and calcinated in the air at different calcination temperatures between 350 and 1050 degrees C. For that, we choose to measure the dielectric properties over the high frequency range (10(6)-10(8) Hz) at room temperature (RT), which makes it the candidate for high-frequency ultrasonic and energy storage applications. The dielectric properties give remarkable results obtained maybe for the first time for this compound at the mentioned frequency range. Both the dielectric permittivity and AC conductivity were found to increase with the calcination temperature due to an increase in the crystallite size. Particularly, it has been reported that sample calcinated at 1050 degrees C shows high permittivity values. The effect of calcination temperature on the morphology, structure, and dielectric properties of the prepared BaTiO3 nano-powdered was investigated. Transmission electron microscope (TEM) confirmed the nano-crystalline form of prepared samples. X-ray powder diffraction (XRD) results revealed a pure tetragonal phase between 1000 degrees C and 1050 degrees C. However, more than one phase was detected at lower temperatures. Furthermore, Raman spectra showed that the tetragonal peaks at 306 and 715 cm(-1), increase with the increase of the calcination temperature. Fourier transformation infrared spectroscopy (FTIR) showed that the crystallinity improved, accompanied with a gradual disappearance of carbonates by increasing calcination temperature.
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Soumis le : vendredi 1 avril 2022 - 11:33:42
Dernière modification le : mardi 13 septembre 2022 - 11:32:23

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O. El-Sayed, W. M. Mousa, A. Zeinert, A. Lahmar, M. El Marssi, et al.. Calcination temperature effect on dielectric, structural and morphology properties of BaTiO3 nano-structure prepared by modified sol-gel technique. Advances in Natural Sciences : Nanoscience and Nanotechnology, IOP Publishing, 2020, 11 (1), ⟨10.1088/2043-6254/ab798d⟩. ⟨hal-03627381⟩

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