4.4 Article

Investigation of Dielectric, Ferroelectric and Conduction Behavior of Dy3+ Substituted SrBi2Ta2O9 Bismuth Layer Structured Ceramics

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ELECTROCHEMICAL SOC INC
DOI: 10.1149/2162-8777/ac8834

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Bismuth layered structure; Dielectric constant; Hysteresis loop; Oxygen vacancy

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This study investigates the impact of Dy doping on the structure and properties of Sr(Bi1-xDyx)(2)Ta2O9 ceramics prepared by mixed oxide process. The results show that Dy doping leads to a reduction in transition temperature and relative permittivity, as well as a decrease in residual polarization and coercive field. Impedance spectroscopy reveals the electrical contributions from both grains and grain boundaries in the doped ceramics, and a non-Debye type relaxation mechanism is observed. The ac conductivities variation follows Jonscher's power law, suggesting a conduction mechanism governed by the correlated barrier-hopping model.
The present manuscript explores the impact of Dy doping in the Tantalum based bismuth layer structured ferroelectrics with chemical composition of Sr(Bi1-xDyx)(2)Ta2O9 (where x = 0.00, 0.025, 0.05, 0.075 and 0.10) prepared by mixed oxide process. X-ray diffraction study of all the ceramics implement orthorhombic phase without any secondary phase. The polycrystalline nature and grain distribution in the materials is studied from scanning electron microscope study. The temperature dependent dielectric performance of Dy doped SBT ceramics at selected frequencies indicates diffuse order phase transitions with reduction in transition temperature (T-c) and relative permittivity with doping level. The residual polarization and coercive field reduce with doping. The conduction mechanism was analyzed using the frequency and temperature domain impedance spectroscopy for all composition. The electrical contribution from both grains and grain boundary in the doped ceramics in the reported temperatures is confirmed from the Nyquist plots and the non-Debye type of relaxation mechanism is manifested from the depressed semicircles in all of them. The ac conductivities variation with frequencies at the studied temperatures follow Jonscher's power law and the fitting parameters suggests that the conduction mechanism obey the correlated barrier-hopping model.

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