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Main Authors: Zhang, Chenbo, Peng, Xiaotong, Liu, Bo, Zhang, Kai, Chen, Xian
Format: Preprint
Published: 2024
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Online Access:https://arxiv.org/abs/2406.04677
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author Zhang, Chenbo
Peng, Xiaotong
Liu, Bo
Zhang, Kai
Chen, Xian
author_facet Zhang, Chenbo
Peng, Xiaotong
Liu, Bo
Zhang, Kai
Chen, Xian
contents Phase-transforming ferroelectric materials are widely used in energy harvesting and conversion devices. However, the functionality of these devices is significantly impeded by electrical leakage at high temperatures. In this study, we fundamentally study the mechanism of electrical leakage suppression due to phase transformation in a series of donor-doped ferroelectric oxides,Ba0.955Eu0.03Ti(1-x)ZrxO3 with 0<= x<= 0.15. Our experiments clearly demonstrate that the symmetry-breaking phase transformations result in the reduction in electrical conductivity of the donor-doped ferroelectric oxides. The DFT calculation suggests that the donor energy level undergoes a shallow-to-deep transition at the phase transformation temperature. By analyzing the constitutive model of the leakage current density function, we propose a leakage suppression coefficient that rationalizes the development of ferroelectrics with low electrical leakage at elevated temperatures.
format Preprint
id arxiv_https___arxiv_org_abs_2406_04677
institution arXiv
publishDate 2024
record_format arxiv
spellingShingle Electric leakage suppression of phase-transforming ferroelectrics with donor impurities
Zhang, Chenbo
Peng, Xiaotong
Liu, Bo
Zhang, Kai
Chen, Xian
Materials Science
Phase-transforming ferroelectric materials are widely used in energy harvesting and conversion devices. However, the functionality of these devices is significantly impeded by electrical leakage at high temperatures. In this study, we fundamentally study the mechanism of electrical leakage suppression due to phase transformation in a series of donor-doped ferroelectric oxides,Ba0.955Eu0.03Ti(1-x)ZrxO3 with 0<= x<= 0.15. Our experiments clearly demonstrate that the symmetry-breaking phase transformations result in the reduction in electrical conductivity of the donor-doped ferroelectric oxides. The DFT calculation suggests that the donor energy level undergoes a shallow-to-deep transition at the phase transformation temperature. By analyzing the constitutive model of the leakage current density function, we propose a leakage suppression coefficient that rationalizes the development of ferroelectrics with low electrical leakage at elevated temperatures.
title Electric leakage suppression of phase-transforming ferroelectrics with donor impurities
topic Materials Science
url https://arxiv.org/abs/2406.04677