Enhanced Dielectric and Energy Storage Properties of the (200)-oriented Plate-like Na0.5Bi0.5TiO3/Polyimide Composite Materials

Ferroelectric/polymer composites capable of possessing high dielectric constant, excellent flexibility and withstanding high electric field have been considered as promising candidates for embedded capacitor applications, or other energy storage/transfer devices. However, conventional ferroelectric...

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Bibliographic Details
Published in:International journal of electrochemical science 2019-02, Vol.14 (2), p.2049-2062
Main Authors: Yue, Shuangshuang, Wan, Baoquan, Li, Haiyu, Liu, Yunying, Zhang, Qiwei
Format: Article
Language:English
Subjects:
Dielectric constant
Embedded capacitors
Energy density
Plate-like ferroelectrics
Polymer-matrix composites
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Summary:Ferroelectric/polymer composites capable of possessing high dielectric constant, excellent flexibility and withstanding high electric field have been considered as promising candidates for embedded capacitor applications, or other energy storage/transfer devices. However, conventional ferroelectric particle composites only exhibit high dielectric enhancement at a high fraction, and cannot withstand high breakdown electric fields. Compared with particle fillers, the plate-like ferroelectrics with obvious anisotropic dielectric behaviors exhibit excellent dielectric properties in a co-plane orientation. Here we reported a new polyimide based composite material with the (200) oriented plate-like Na0.5Bi0.5TiO3 powders as fillers. The results showed that the plate-like Na0.5Bi0.5TiO3 fillers lead to a obviously increase of dielectric constant for polyimide composites (εr=14.00) at a very low content when Na0.5Bi0.5TiO3 content is about 5 wt%, which is 4.03 times as large as that of pure polyimide (εr=3.47) while maintaining a relatively low loss (tgδ=0.0061) and high breakdown strength (1412 kV/cm). The measured energy density with 5 wt% Na0.5Bi0.5TiO3 content increased to a value of 1.24 J/cm3, higher than that of pure polyimide (0.67 J/cm3). The result indicates that the composite could have potential applications in embedded capacitors and microelectronic applications.
ISSN:1452-3981
1452-3981
DOI:10.20964/2019.02.78