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Multilayer ceramic capacitors based on relaxor BaTiO₃-Bi(Zn₁/₂Ti₁/₂)O₃ for temperature stable and high energy density capacitor applications

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https://ir.library.oregonstate.edu/concern/articles/gt54kp717

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  • The need for miniaturization without compromising cost and performance continues to motivate research in advanced capacitor devices. In this report, multilayer ceramic capacitors based on relaxor BaTiO₃-Bi(Zn₁/₂Ti₁/₂)O₃ (BT-BZT) were fabricated and characterized. In bulk ceramic embodiments, BT-BZT has been shown to exhibit relative permittivities greater than 1000, high resistivities (ρ > 1 GΩ-cm at 300 °C), and negligible saturation up to fields as high as 150 kV/cm. Multilayer capacitor embodiments were fabricated and found to exhibit similar dielectric and resistivity properties. The energy density for the multilayer ceramics reached values of ∼2.8 J/cm³ at room temperature at an applied electric field of ∼330 kV/cm. This represents a significant improvement compared to commercially available multilayer capacitors. The dielectric properties were also found to be stable over a wide range of temperatures with a temperature coefficient of approximately −2000 ppm/K measured from 50 to 350 °C, an important criteria for high temperature applications. Finally, the compatibility of inexpensive Ag-Pd electrodes with these ceramics was also demonstrated, which can have implications on minimizing the device cost.
  • Article Copyright 2015 American Institute of Physics. This article may be downloaded for personal use only. Any other use requires prior permission of the author and the American Institute of Physics. the published article can be found at: http://scitation.aip.org/content/aip/journal/apl.
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  • Kumar, N., Ionin, A., Ansell, T., Kwon, S., Hackenberger, W., & Cann, D. (2015). Multilayer ceramic capacitors based on relaxor BaTiO₃-Bi(Zn₁/₂Ti₁/₂)O₃ for temperature stable and high energy density capacitor applications. Applied Physics Letters, 106(25), 252901. doi:10.1063/1.4922947
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  • 106
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  • 25
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  • TRS and OSU appreciate DOE's support on this research through Contract No. DE-SC0010109. A portion of this work was supported by the National Science Foundation under Grant No. DMR-1308032.
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