Science of Sintering (Jan 2022)
Effect of donor and acceptor dopants on the microstructure and dielectric properties of barium titanate based ceramics
Abstract
This paper examined the microstructural and dielectric characteristics of BaTiO3 - based ceramics of the general formula BaTi1-x-yNbxMnyO3. The concentration of Mn as acceptor was variable 0.01 and 0.05 at%, while the donor (Nb) was fixed at 0.5 at%. The starting ceramic powders were produced by a conventional solid-state reaction method and sintered at 1290 and 1320oC. In BaTiO3 ceramics doped with a higher Mn concentration (0.05 at% Mn) at a sintering temperature of 1290ºC, a bimodal structure with a grain of 10-30 μm, and 1-5 μm, was obtained. Sintering at a higher temperature (Tsin = 1320ºC), regardless of Mn content, provides the achievement of a uniform microstructure with grains under than 6 μm. The ceramics doped with 0.01 at% Mn and sintered at 1320ºC are characterized by high values of the dielectric constant at room temperature and notable changes in the dielectric constant with temperature. Nb-0.05Mn BaTiO3 doped ceramics sintered at 1290ºC show lower dielectric constant values due to the presence of Mn-enriched areas representing paraelectric regions. Areas richer in Mn are associated with the fine-grained structure. The dielectric constant in the investigated systems achieves a constant value for frequencies higher than 3kHz. The Curie temperature of all samples was shifted to lower values in relation to undoped BaTiO3 ceramics. According to Curie-Weiss law were determined the Curie constant C and the Curie temperature Tc.
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