Enhanced energy-storage performance and temperature-stable dielectric properties of (1 − x)(0.94Na                         0.5                         Bi                         0.5                         TiO                         3                         –0.06BaTiO                         3                         )–xNa                         0.73                         Bi                         0.09                         NbO                         3                          ceramics

Jinbo Wang; Huiqing Fan; Bin Hu; Hua Jiang

doi:10.1007/s10854-018-0522-y

Enhanced energy-storage performance and temperature-stable dielectric properties of (1 − x)(0.94Na _0.5 Bi _0.5 TiO ₃ –0.06BaTiO ₃ )–xNa _0.73 Bi _0.09 NbO ₃ ceramics

Jinbo Wang, Huiqing Fan, Bin Hu, Hua Jiang

School of Materials Sience and Engineering

Northwestern Polytechnical University Xian

Research output: Contribution to journal › Article › peer-review

30 Scopus citations

Abstract

A series of novel (1 − x)(0.94Na _0.5 Bi _0.5 TiO ₃ –0.06BaTiO ₃ )–xNa _0.73 Bi _0.09 NbO ₃ (BNT–BT–100xNBN) (x = 0–0.15) lead-free ceramics were fabricated by conventional solid state reaction method. The effects of NBN modification on the phase evolution, dielectric behavior, ferroelectric property and energy-storage performance were comprehensively investigated. All samples showed the pseudocubic structure and excessive dopants resulted in the secondary phase. The introduction of NBN resulted in deteriorative relaxor properties and maked two distinct dielectric anomalies smeared mutually. Therefore, the sample with x = 0.10 displayed a high permittivity (~ 1988) and low dielectric loss (< 0.02) in a broad temperature range of 25–337 °C. In addition, when x = 0.1, the optimal energy-storage density W _rec reached up to 1.56 J/cm ³ with energy efficiency η = 92.5% at 120 kV/cm. The excellent thermal stability and fatigue resistance of sintered ceramics make it possible to be applied for practical dielectric capacitors.

Original language	English
Pages (from-to)	2479-2488
Number of pages	10
Journal	Journal of Materials Science: Materials in Electronics
Volume	30
Issue number	3
DOIs	https://doi.org/10.1007/s10854-018-0522-y
State	Published - 15 Feb 2019

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Wang, J., Fan, H., Hu, B., & Jiang, H. (2019). Enhanced energy-storage performance and temperature-stable dielectric properties of (1 − x)(0.94Na _0.5 Bi _0.5 TiO ₃ –0.06BaTiO ₃ )–xNa _0.73 Bi _0.09 NbO ₃ ceramics Journal of Materials Science: Materials in Electronics, 30(3), 2479-2488. https://doi.org/10.1007/s10854-018-0522-y

Wang, Jinbo ; Fan, Huiqing ; Hu, Bin et al. / Enhanced energy-storage performance and temperature-stable dielectric properties of (1 − x)(0.94Na _0.5 Bi _0.5 TiO ₃ –0.06BaTiO ₃ )–xNa _0.73 Bi _0.09 NbO ₃ ceramics In: Journal of Materials Science: Materials in Electronics. 2019 ; Vol. 30, No. 3. pp. 2479-2488.

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title = " Enhanced energy-storage performance and temperature-stable dielectric properties of (1 − x)(0.94Na 0.5 Bi 0.5 TiO 3 –0.06BaTiO 3 )–xNa 0.73 Bi 0.09 NbO 3 ceramics ",

abstract = " A series of novel (1 − x)(0.94Na 0.5 Bi 0.5 TiO 3 –0.06BaTiO 3 )–xNa 0.73 Bi 0.09 NbO 3 (BNT–BT–100xNBN) (x = 0–0.15) lead-free ceramics were fabricated by conventional solid state reaction method. The effects of NBN modification on the phase evolution, dielectric behavior, ferroelectric property and energy-storage performance were comprehensively investigated. All samples showed the pseudocubic structure and excessive dopants resulted in the secondary phase. The introduction of NBN resulted in deteriorative relaxor properties and maked two distinct dielectric anomalies smeared mutually. Therefore, the sample with x = 0.10 displayed a high permittivity (~ 1988) and low dielectric loss (< 0.02) in a broad temperature range of 25–337 °C. In addition, when x = 0.1, the optimal energy-storage density W rec reached up to 1.56 J/cm 3 with energy efficiency η = 92.5% at 120 kV/cm. The excellent thermal stability and fatigue resistance of sintered ceramics make it possible to be applied for practical dielectric capacitors.",

author = "Jinbo Wang and Huiqing Fan and Bin Hu and Hua Jiang",

note = "Publisher Copyright: {\textcopyright} 2018, Springer Science+Business Media, LLC, part of Springer Nature.",

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Wang, J, Fan, H, Hu, B & Jiang, H 2019, ' Enhanced energy-storage performance and temperature-stable dielectric properties of (1 − x)(0.94Na _0.5 Bi _0.5 TiO ₃ –0.06BaTiO ₃ )–xNa _0.73 Bi _0.09 NbO ₃ ceramics ', Journal of Materials Science: Materials in Electronics, vol. 30, no. 3, pp. 2479-2488. https://doi.org/10.1007/s10854-018-0522-y

Enhanced energy-storage performance and temperature-stable dielectric properties of (1 − x)(0.94Na _0.5 Bi _0.5 TiO ₃ –0.06BaTiO ₃ )–xNa _0.73 Bi _0.09 NbO ₃ ceramics . / Wang, Jinbo; Fan, Huiqing; Hu, Bin et al.
In: Journal of Materials Science: Materials in Electronics, Vol. 30, No. 3, 15.02.2019, p. 2479-2488.

Research output: Contribution to journal › Article › peer-review

TY - JOUR

T1 - Enhanced energy-storage performance and temperature-stable dielectric properties of (1 − x)(0.94Na 0.5 Bi 0.5 TiO 3 –0.06BaTiO 3 )–xNa 0.73 Bi 0.09 NbO 3 ceramics

AU - Wang, Jinbo

AU - Fan, Huiqing

AU - Hu, Bin

AU - Jiang, Hua

PY - 2019/2/15

Y1 - 2019/2/15

N2 - A series of novel (1 − x)(0.94Na 0.5 Bi 0.5 TiO 3 –0.06BaTiO 3 )–xNa 0.73 Bi 0.09 NbO 3 (BNT–BT–100xNBN) (x = 0–0.15) lead-free ceramics were fabricated by conventional solid state reaction method. The effects of NBN modification on the phase evolution, dielectric behavior, ferroelectric property and energy-storage performance were comprehensively investigated. All samples showed the pseudocubic structure and excessive dopants resulted in the secondary phase. The introduction of NBN resulted in deteriorative relaxor properties and maked two distinct dielectric anomalies smeared mutually. Therefore, the sample with x = 0.10 displayed a high permittivity (~ 1988) and low dielectric loss (< 0.02) in a broad temperature range of 25–337 °C. In addition, when x = 0.1, the optimal energy-storage density W rec reached up to 1.56 J/cm 3 with energy efficiency η = 92.5% at 120 kV/cm. The excellent thermal stability and fatigue resistance of sintered ceramics make it possible to be applied for practical dielectric capacitors.

AB - A series of novel (1 − x)(0.94Na 0.5 Bi 0.5 TiO 3 –0.06BaTiO 3 )–xNa 0.73 Bi 0.09 NbO 3 (BNT–BT–100xNBN) (x = 0–0.15) lead-free ceramics were fabricated by conventional solid state reaction method. The effects of NBN modification on the phase evolution, dielectric behavior, ferroelectric property and energy-storage performance were comprehensively investigated. All samples showed the pseudocubic structure and excessive dopants resulted in the secondary phase. The introduction of NBN resulted in deteriorative relaxor properties and maked two distinct dielectric anomalies smeared mutually. Therefore, the sample with x = 0.10 displayed a high permittivity (~ 1988) and low dielectric loss (< 0.02) in a broad temperature range of 25–337 °C. In addition, when x = 0.1, the optimal energy-storage density W rec reached up to 1.56 J/cm 3 with energy efficiency η = 92.5% at 120 kV/cm. The excellent thermal stability and fatigue resistance of sintered ceramics make it possible to be applied for practical dielectric capacitors.

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DO - 10.1007/s10854-018-0522-y

M3 - 文章

AN - SCOPUS:85058009007

SN - 0957-4522

VL - 30

SP - 2479

EP - 2488

JO - Journal of Materials Science: Materials in Electronics

JF - Journal of Materials Science: Materials in Electronics

IS - 3

ER -

Wang J, Fan H, Hu B, Jiang H. Enhanced energy-storage performance and temperature-stable dielectric properties of (1 − x)(0.94Na _0.5 Bi _0.5 TiO ₃ –0.06BaTiO ₃ )–xNa _0.73 Bi _0.09 NbO ₃ ceramics Journal of Materials Science: Materials in Electronics. 2019 Feb 15;30(3):2479-2488. doi: 10.1007/s10854-018-0522-y

Enhanced energy-storage performance and temperature-stable dielectric properties of (1 − x)(0.94Na _0.5 Bi _0.5 TiO ₃ –0.06BaTiO ₃ )–xNa _0.73 Bi _0.09 NbO ₃ ceramics

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