Dielectric relaxation in A2FeNbO6 (A∈=∈Ba, Sr, and Ca) perovskite ceramics

Shanming Ke; Huiqing Fan; Haitao Huang

doi:10.1007/s10832-007-9353-6

Dielectric relaxation in A₂FeNbO₆ (A∈=∈Ba, Sr, and Ca) perovskite ceramics

Shanming Ke, Huiqing Fan, Haitao Huang

School of Materials Sience and Engineering

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

84 Scopus citations

Abstract

A₂FeNbO₆ (A∈=∈Ba, Sr, and Ca, abbreviated as AFN) ceramics were synthesized by a wolframite method with monoclinic FeNbO₄ precursor. X-ray diffraction studies revealed that Sr ₂FeNbO₆ and Ca₂FeNbO₆ had a orthorhombic structure, while Ba₂FeNbO₆ had a cubic symmetry. Dielectric properties of the AFN ceramics were characterized in a broad frequency range (1 Hz-10 MHz) at a temperature ranged from -120 to 300 °C. Two dielectric relaxations were observed to follow the Arrhenius law at both low and high temperatures for all samples. Polaron relaxation was proposed to explain the low temperature dielectric relaxations in AFN. The high temperature dielectric relaxations in AFN were a competitive phenomenon between the dielectric relaxation and the electrical conduction of the relaxing species.

Original language	English
Pages (from-to)	252-256
Number of pages	5
Journal	Journal of Electroceramics
Volume	22
Issue number	1-3
DOIs	https://doi.org/10.1007/s10832-007-9353-6
State	Published - Feb 2009

Keywords

AFN
Dielectric relaxation
Polaronic relaxation

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10.1007/s10832-007-9353-6

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title = "Dielectric relaxation in A2FeNbO6 (A∈=∈Ba, Sr, and Ca) perovskite ceramics",

abstract = "A2FeNbO6 (A∈=∈Ba, Sr, and Ca, abbreviated as AFN) ceramics were synthesized by a wolframite method with monoclinic FeNbO4 precursor. X-ray diffraction studies revealed that Sr 2FeNbO6 and Ca2FeNbO6 had a orthorhombic structure, while Ba2FeNbO6 had a cubic symmetry. Dielectric properties of the AFN ceramics were characterized in a broad frequency range (1 Hz-10 MHz) at a temperature ranged from -120 to 300 °C. Two dielectric relaxations were observed to follow the Arrhenius law at both low and high temperatures for all samples. Polaron relaxation was proposed to explain the low temperature dielectric relaxations in AFN. The high temperature dielectric relaxations in AFN were a competitive phenomenon between the dielectric relaxation and the electrical conduction of the relaxing species.",

keywords = "AFN, Dielectric relaxation, Polaronic relaxation",

author = "Shanming Ke and Huiqing Fan and Haitao Huang",

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AU - Ke, Shanming

AU - Fan, Huiqing

AU - Huang, Haitao

PY - 2009/2

Y1 - 2009/2

N2 - A2FeNbO6 (A∈=∈Ba, Sr, and Ca, abbreviated as AFN) ceramics were synthesized by a wolframite method with monoclinic FeNbO4 precursor. X-ray diffraction studies revealed that Sr 2FeNbO6 and Ca2FeNbO6 had a orthorhombic structure, while Ba2FeNbO6 had a cubic symmetry. Dielectric properties of the AFN ceramics were characterized in a broad frequency range (1 Hz-10 MHz) at a temperature ranged from -120 to 300 °C. Two dielectric relaxations were observed to follow the Arrhenius law at both low and high temperatures for all samples. Polaron relaxation was proposed to explain the low temperature dielectric relaxations in AFN. The high temperature dielectric relaxations in AFN were a competitive phenomenon between the dielectric relaxation and the electrical conduction of the relaxing species.

AB - A2FeNbO6 (A∈=∈Ba, Sr, and Ca, abbreviated as AFN) ceramics were synthesized by a wolframite method with monoclinic FeNbO4 precursor. X-ray diffraction studies revealed that Sr 2FeNbO6 and Ca2FeNbO6 had a orthorhombic structure, while Ba2FeNbO6 had a cubic symmetry. Dielectric properties of the AFN ceramics were characterized in a broad frequency range (1 Hz-10 MHz) at a temperature ranged from -120 to 300 °C. Two dielectric relaxations were observed to follow the Arrhenius law at both low and high temperatures for all samples. Polaron relaxation was proposed to explain the low temperature dielectric relaxations in AFN. The high temperature dielectric relaxations in AFN were a competitive phenomenon between the dielectric relaxation and the electrical conduction of the relaxing species.

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KW - Dielectric relaxation

KW - Polaronic relaxation

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Dielectric relaxation in A₂FeNbO₆ (A∈=∈Ba, Sr, and Ca) perovskite ceramics

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Keywords

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