Dielectric relaxation and electrical properties of Na0.5Bi4La0.5Ti4O15 electroceramics

Fida Rehman; Jing Bo Li; Pervaiz Ahmad; Yasir Saeed; Hai Bo Jin

doi:10.1007/s10832-020-00205-8

Dielectric relaxation and electrical properties of Na_0.5Bi₄La_0.5Ti₄O₁₅ electroceramics

Fida Rehman^*, Jing Bo Li, Pervaiz Ahmad, Yasir Saeed, Hai Bo Jin

^*Corresponding author for this work

School of Material Science and Engineering

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

2 Citations (Scopus)

Abstract

Aurivillius single-phase Na_0.5Bi₄La_0.5Ti₄O₁₅ ceramics was prepared via solid state mixed oxide sintering technique. The ac data in terms of dielectric and impedance were collected to investigate the electrical properties and dielectric relaxation behaviors in the ceramics. The detailed frequency spectrum analysis demonstrates the existence of single dielectric relaxation behavior in the material, which is due to the grains contribution. A phase transition was observed to take place at ~570 °C. Ar-annealing study showed that above ∼280 °C, relaxation and conduction of the ceramics was assigned to the motion of ionized oxygen vacancies. The kinetic analysis was performed to probe the conduction-relaxation mechanisms in the ceramics. The present results could be significant for deep understanding of electrical properties and defect-relaxation behaviors in Na_0.5Bi₄La_0.5Ti₄O₁₅ related ceramics.

Original language	English
Pages (from-to)	147-153
Number of pages	7
Journal	Journal of Electroceramics
Volume	44
Issue number	3-4
DOIs	https://doi.org/10.1007/s10832-020-00205-8
Publication status	Published - 1 Jun 2020

Keywords

Aurivillius compound
Defects
Dielectric
Electrical properties
Impedance analysis

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10.1007/s10832-020-00205-8

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title = "Dielectric relaxation and electrical properties of Na0.5Bi4La0.5Ti4O15 electroceramics",

abstract = "Aurivillius single-phase Na0.5Bi4La0.5Ti4O15 ceramics was prepared via solid state mixed oxide sintering technique. The ac data in terms of dielectric and impedance were collected to investigate the electrical properties and dielectric relaxation behaviors in the ceramics. The detailed frequency spectrum analysis demonstrates the existence of single dielectric relaxation behavior in the material, which is due to the grains contribution. A phase transition was observed to take place at ~570 °C. Ar-annealing study showed that above ∼280 °C, relaxation and conduction of the ceramics was assigned to the motion of ionized oxygen vacancies. The kinetic analysis was performed to probe the conduction-relaxation mechanisms in the ceramics. The present results could be significant for deep understanding of electrical properties and defect-relaxation behaviors in Na0.5Bi4La0.5Ti4O15 related ceramics.",

keywords = "Aurivillius compound, Defects, Dielectric, Electrical properties, Impedance analysis",

author = "Fida Rehman and Li, {Jing Bo} and Pervaiz Ahmad and Yasir Saeed and Jin, {Hai Bo}",

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T1 - Dielectric relaxation and electrical properties of Na0.5Bi4La0.5Ti4O15 electroceramics

AU - Rehman, Fida

AU - Li, Jing Bo

AU - Ahmad, Pervaiz

AU - Saeed, Yasir

AU - Jin, Hai Bo

PY - 2020/6/1

Y1 - 2020/6/1

N2 - Aurivillius single-phase Na0.5Bi4La0.5Ti4O15 ceramics was prepared via solid state mixed oxide sintering technique. The ac data in terms of dielectric and impedance were collected to investigate the electrical properties and dielectric relaxation behaviors in the ceramics. The detailed frequency spectrum analysis demonstrates the existence of single dielectric relaxation behavior in the material, which is due to the grains contribution. A phase transition was observed to take place at ~570 °C. Ar-annealing study showed that above ∼280 °C, relaxation and conduction of the ceramics was assigned to the motion of ionized oxygen vacancies. The kinetic analysis was performed to probe the conduction-relaxation mechanisms in the ceramics. The present results could be significant for deep understanding of electrical properties and defect-relaxation behaviors in Na0.5Bi4La0.5Ti4O15 related ceramics.

AB - Aurivillius single-phase Na0.5Bi4La0.5Ti4O15 ceramics was prepared via solid state mixed oxide sintering technique. The ac data in terms of dielectric and impedance were collected to investigate the electrical properties and dielectric relaxation behaviors in the ceramics. The detailed frequency spectrum analysis demonstrates the existence of single dielectric relaxation behavior in the material, which is due to the grains contribution. A phase transition was observed to take place at ~570 °C. Ar-annealing study showed that above ∼280 °C, relaxation and conduction of the ceramics was assigned to the motion of ionized oxygen vacancies. The kinetic analysis was performed to probe the conduction-relaxation mechanisms in the ceramics. The present results could be significant for deep understanding of electrical properties and defect-relaxation behaviors in Na0.5Bi4La0.5Ti4O15 related ceramics.

KW - Aurivillius compound

KW - Defects

KW - Dielectric

KW - Electrical properties

KW - Impedance analysis

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SN - 1385-3449

VL - 44

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ER -

Dielectric relaxation and electrical properties of Na_0.5Bi₄La_0.5Ti₄O₁₅ electroceramics

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Keywords

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