Sr2GdTi2Nb3O15 陶瓷分析:结构特性和复合阻抗光谱研究

IF 3 Q2 MATERIALS SCIENCE, MULTIDISCIPLINARY Materialia Pub Date : 2024-10-10 DOI:10.1016/j.mtla.2024.102256
Karim Chourti, Amine Bendahhou, Ilyas Jalafi, Fatima Chaou, Soufian El Barkany, Mohamed Abou-salama
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引用次数: 0

摘要

在这项研究中,我们成功合成了标称式为 Sr2GdTi2Nb3O15 的四方钨青铜,并对其结构、介电性能和电学性能进行了系统研究。该材料是在 1350 °C 温度下通过固态反应技术合成的。利用 X 射线衍射数据通过里特维尔德精炼验证了 P4/mbm 空间群四方钨青铜的形成。在不同温度下,使用非破坏性复阻抗光谱(CIS)在一定频率(10-106 Hz)范围内检测了陶瓷的电气特性。阻抗的实际分量(Z')随着频率的升高而降低,这表明该样品具有负温度电阻系数(NTCR)。该化合物的科尔-科尔图显示出两个半圆,随着温度的升高,化合物的电阻逐渐减小。此外,还发现活化能(Ea)约为 0.9 eV,这证实了氧空位是造成所观察到的弛豫行为的原因。复模量分析证实了非德拜弛豫的存在。这些结果有助于深入理解 Sr2GdTi2Nb3O15 的结构和电气特性,为其在各种电子设备中的潜在应用开辟了道路。
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Analysis of the Sr2GdTi2Nb3O15 ceramic: Investigation into its structural properties and complex impedance spectroscopy
In this study, we successfully synthesized tetragonal tungsten bronze with the nominal formula Sr2GdTi2Nb3O15 and systematically examined of its structure, dielectric, and electrical properties. The material was synthesized through the solid-state reaction technique at a temperature of 1350 °C. The formation of the tetragonal tungsten bronze in the P4/mbm space group was verified via Rietveld refinement using X-ray diffraction data. The electrical characteristics of the ceramic were examined using non-destructive complex impedance spectroscopy (CIS) across a range of frequencies (10–106 Hz) at various temperatures. The real component of impedance (Z') displayed a decrease with rising frequency, suggesting a negative temperature coefficient of resistance (NTCR) for this sample. The Cole-Cole plot of the compound exhibits two semicircles, with the compound's resistance gradually decreasing as the temperature increased. Moreover, the activation energy (Ea) was found to be approximately 0.9 eV, which confirms that oxygen vacancies are responsible for the observed relaxation behavior. Complex modulus analysis confirmed the presence of non-Debye relaxations. These results contribute to a thorough comprehension of the structural and electrical characteristics of Sr2GdTi2Nb3O15, opening avenues for potential applications in diverse electronic devices.
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来源期刊
Materialia
Materialia MATERIALS SCIENCE, MULTIDISCIPLINARY-
CiteScore
6.40
自引率
2.90%
发文量
345
审稿时长
36 days
期刊介绍: Materialia is a multidisciplinary journal of materials science and engineering that publishes original peer-reviewed research articles. Articles in Materialia advance the understanding of the relationship between processing, structure, property, and function of materials. Materialia publishes full-length research articles, review articles, and letters (short communications). In addition to receiving direct submissions, Materialia also accepts transfers from Acta Materialia, Inc. partner journals. Materialia offers authors the choice to publish on an open access model (with author fee), or on a subscription model (with no author fee).
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