Effect of A/B sites co-doping on the structure, electric and dielectric properties of CaTiSiO<sub>5</sub> ceramics

Hanwen Ni; Zichen He; Zhifu Liu

doi:10.1142/S2010135X2450022X

Journal of Advanced Dielectrics, Volume. 15, Issue 2, 2450022(2025)

Effect of A/B sites co-doping on the structure, electric and dielectric properties of CaTiSiO₅ ceramics

Hanwen Ni^*, Zichen He^**, and Zhifu Liu^***

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Dielectrics with high permittivity and temperature stability are important for the development of high-temperature multilayer ceramic capacitors (MLCCs). In this study, Ca $_{1 ? x}$ Na_xTi $_{1 ? x}$ Nb_xSiO₅ (abbreviated as CTS $? x$ NN) ceramics were prepared by solid-phase reaction method. The introduction of NN weakens the long-range ordered displacement of Ti, leading to a significant increase in the dielectric temperature stability. The CTS?2%NN samples exhibit high permittivity (53) and TCC $\leq \pm 170$ ppm/^°C in the range of $? 5 5^{°}$ C to 300^°C. The CTS-based ceramics behave high dielectric temperature stability. In addition, the bandgap of the CTS-based ceramics increased significantly, which is favorable for improving the breakdown strength of the material. For $x = 4$ % samples, the breakdown strength reaches 621kV/cm. Thus, the designed CTS-based dielectrics are promising for high-temperature capacitors.

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Keywords

CaTiSiO₅ co-doping dielectric property temperature stability

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Hanwen Ni, Zichen He, Zhifu Liu. Effect of A/B sites co-doping on the structure, electric and dielectric properties of CaTiSiO₅ ceramics[J]. Journal of Advanced Dielectrics, 2025, 15(2): 2450022

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