High energy density, temperature stable lead-free ceramics by introducing high entropy perovskite oxide

Shiyu Zhou; Yongping Pu; Xuqing Zhang; Yu Shi; Ziyan Gao; Yu Feng; Guodong Shen; Xueyun Wang; Dawei Wang

doi:10.1016/j.cej.2021.131684

High energy density, temperature stable lead-free ceramics by introducing high entropy perovskite oxide

Shiyu Zhou, Yongping Pu^*, Xuqing Zhang, Yu Shi, Ziyan Gao, Yu Feng, Guodong Shen, Xueyun Wang, Dawei Wang

^*此作品的通讯作者

宇航学院

科研成果: 期刊稿件 › 文章 › 同行评审

167 引用（Scopus）

摘要

Dielectric capacitors with fast charge–discharge rate and high power density are drawing more attention in pulse power equipment field. In this work, bismuth-based high entropy compound (HEC), Bi(Zn_0.2Mg_0.2Al_0.2Sn_0.2Zr_0.2)O₃ (BZMASZ), was introduced into BaTiO₃-Na_0.5Bi_0.5TiO₃ (BT-NBT) matrix, in order to improve the comprehensive energy storage performance. The addition of BZMASZ induced phase transition from tetragonal phase to cubic phase, along with the enhancement of relaxor behavior and local nanodomains. The 0.1 BZMASZ modified 0.75BT-0.25NBT ceramics exhibited excellent recoverable energy density of W_rec ~ 3.74 J/cm³, high conversion efficiency of η ~ 82.2 % and superior temperature stability of ± 4.5 % from −30 to 200 °C. Combined with the high power density of P_D ~ 34.76 MW/cm³ and rapid discharge rate of t_0.9 ~ 67 ns, the x = 0.1 ceramics are considered to be the promising candidate for future wide-temperature pulse power applications.

源语言	英语
文章编号	131684
期刊	Chemical Engineering Journal
卷	427
DOI	https://doi.org/10.1016/j.cej.2021.131684
出版状态	已出版 - 1 1月 2022

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title = "High energy density, temperature stable lead-free ceramics by introducing high entropy perovskite oxide",

abstract = "Dielectric capacitors with fast charge–discharge rate and high power density are drawing more attention in pulse power equipment field. In this work, bismuth-based high entropy compound (HEC), Bi(Zn0.2Mg0.2Al0.2Sn0.2Zr0.2)O3 (BZMASZ), was introduced into BaTiO3-Na0.5Bi0.5TiO3 (BT-NBT) matrix, in order to improve the comprehensive energy storage performance. The addition of BZMASZ induced phase transition from tetragonal phase to cubic phase, along with the enhancement of relaxor behavior and local nanodomains. The 0.1 BZMASZ modified 0.75BT-0.25NBT ceramics exhibited excellent recoverable energy density of Wrec ~ 3.74 J/cm3, high conversion efficiency of η ~ 82.2 % and superior temperature stability of ± 4.5 % from −30 to 200 °C. Combined with the high power density of PD ~ 34.76 MW/cm3 and rapid discharge rate of t0.9 ~ 67 ns, the x = 0.1 ceramics are considered to be the promising candidate for future wide-temperature pulse power applications.",

keywords = "Energy storage, High entropy compound, Relaxor, Temperature stability",

author = "Shiyu Zhou and Yongping Pu and Xuqing Zhang and Yu Shi and Ziyan Gao and Yu Feng and Guodong Shen and Xueyun Wang and Dawei Wang",

note = "Publisher Copyright: {\textcopyright} 2021 Elsevier B.V.",

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doi = "10.1016/j.cej.2021.131684",

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T1 - High energy density, temperature stable lead-free ceramics by introducing high entropy perovskite oxide

AU - Zhou, Shiyu

AU - Pu, Yongping

AU - Zhang, Xuqing

AU - Shi, Yu

AU - Gao, Ziyan

AU - Feng, Yu

AU - Shen, Guodong

AU - Wang, Xueyun

AU - Wang, Dawei

PY - 2022/1/1

Y1 - 2022/1/1

N2 - Dielectric capacitors with fast charge–discharge rate and high power density are drawing more attention in pulse power equipment field. In this work, bismuth-based high entropy compound (HEC), Bi(Zn0.2Mg0.2Al0.2Sn0.2Zr0.2)O3 (BZMASZ), was introduced into BaTiO3-Na0.5Bi0.5TiO3 (BT-NBT) matrix, in order to improve the comprehensive energy storage performance. The addition of BZMASZ induced phase transition from tetragonal phase to cubic phase, along with the enhancement of relaxor behavior and local nanodomains. The 0.1 BZMASZ modified 0.75BT-0.25NBT ceramics exhibited excellent recoverable energy density of Wrec ~ 3.74 J/cm3, high conversion efficiency of η ~ 82.2 % and superior temperature stability of ± 4.5 % from −30 to 200 °C. Combined with the high power density of PD ~ 34.76 MW/cm3 and rapid discharge rate of t0.9 ~ 67 ns, the x = 0.1 ceramics are considered to be the promising candidate for future wide-temperature pulse power applications.

AB - Dielectric capacitors with fast charge–discharge rate and high power density are drawing more attention in pulse power equipment field. In this work, bismuth-based high entropy compound (HEC), Bi(Zn0.2Mg0.2Al0.2Sn0.2Zr0.2)O3 (BZMASZ), was introduced into BaTiO3-Na0.5Bi0.5TiO3 (BT-NBT) matrix, in order to improve the comprehensive energy storage performance. The addition of BZMASZ induced phase transition from tetragonal phase to cubic phase, along with the enhancement of relaxor behavior and local nanodomains. The 0.1 BZMASZ modified 0.75BT-0.25NBT ceramics exhibited excellent recoverable energy density of Wrec ~ 3.74 J/cm3, high conversion efficiency of η ~ 82.2 % and superior temperature stability of ± 4.5 % from −30 to 200 °C. Combined with the high power density of PD ~ 34.76 MW/cm3 and rapid discharge rate of t0.9 ~ 67 ns, the x = 0.1 ceramics are considered to be the promising candidate for future wide-temperature pulse power applications.

KW - Energy storage

KW - High entropy compound

KW - Relaxor

KW - Temperature stability

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High energy density, temperature stable lead-free ceramics by introducing high entropy perovskite oxide

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