期刊
CERAMICS INTERNATIONAL
卷 48, 期 13, 页码 19492-19500出版社
ELSEVIER SCI LTD
DOI: 10.1016/j.ceramint.2022.04.139
关键词
Bi0.2Na0.2Ba0.2Ca0.2Sr0.2; High-entropy ceramics; Hydrothermal method; Dielectric properties; Energy storage properties
资金
- regional innovation and develop-ment joint fund project of Natural Science Foundation of Liaoning Province [2020-YKLH-23]
- Central Government Guiding Local Science and Technology Development Funds of Liaoning Province [2021JH6/10500168]
In this study, (Bi0.2Na0.2Ba0.2Ca0.2Sr0.2)TiO3 (BNBCST) high-entropy ceramics (HECs) were prepared using hydrothermal-synthesized powders. It was found that BNBCST exhibited great chemical homogeneity and a single tetragonal phase due to the chemical element disorder at the A site, leading to lattice distortion and enhanced dielectric relaxation and energy storage performance. The study highlights the potential of hydrothermal powder preparation in fabricating high-entropy ferroelectric ceramics, with BNBCST being a viable alternative for electrical energy storage applications.
In this study, (Bi0.2Na0.2Ba0.2Ca0.2Sr0.2)TiO3 (BNBCST) high-entropy ceramics (HECs) were prepared by using hydrothermal-synthesized powders. According to the characterizations of microstructure and crystal structure, the BNBCST HECs sintered at 1180-1220 C exhibit a great chemical homogeneity and a single tetragonal phase. Compared to BNT, the chemical element disorder at A-site of BNBCST results in a large lattice distortion, which effectively disturbs the symmetry of the TiO6 octahedron and leads to dielectric relaxation as well as enhanced energy storage performance in HECs. The dielectric, ferroelectric and energy storage performances are density dependent. For the sample sintered at 1200 C, a dielectric constant of 3788 and a recoverable energy storage density (under 127 kV/cm) of 1.37 J/cm3 can be achieved. This work shows that powder preparation by hydrothermal method is a promising approach to fabricate high-entropy ferroelectric ceramics and the prepared BNBCST is a practicable alternative for electrical energy storage applications.
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