Anisotropic magnetodielectric property of Bi4NdTi3Fe0.7Ni0.3O15 ceramics at room temperature

IF 3.8 3区材料科学 Q1 MATERIALS SCIENCE, CERAMICS

Journal of the American Ceramic Society Pub Date : 2025-07-30 DOI:10.1111/jace.70135

Zhichang Wang, Jinpeng Tan, Tian Qiu, Qixiang Jiang, Xiaoqin Chen, Min Song, Fujun Yang, Shuoqing Yan

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Abstract

Bi₄NdTi₃Fe_0.7Ni_0.3O₁₅ (BNTFN) ceramics were fabricated via a modified solid-state reaction method. Comprehensive magnetodielectric (MD) characterization revealed significant anisotropy for MD coupling in BNTFN. In the high-frequency region, under identical frequency (f) and external magnetic field (H) conditions, MD coupling parallel to the c-axis (MD//) exhibited a weak positive effect, while that perpendicular to the c-axis (MD⊥) demonstrated a pronounced negative effect. When H < 5 kOe, MD// increased with H, whereas MD⊥ remained negligible. However, when H exceeded 5 kOe, MD// approached saturation, and MD⊥ began to rise progressively with further increases in H. Remarkably, at 1 MHz and under 10 kOe, MD⊥ was almost ten or twenty times stronger than MD// in BNTFN. More importantly, this work also elucidates the relationship between microstructure and MD coupling in four-layered perovskite compounds, offering valuable insights for designing high-sensitivity magnetocapacitance devices through strategic microstructure manipulation in layered oxide systems.

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室温下Bi4NdTi3Fe0.7Ni0.3O15陶瓷的各向异性磁介电性能

采用改进的固相反应法制备了Bi4NdTi3Fe0.7Ni0.3O15 （BNTFN）陶瓷。综合磁介电（MD）表征揭示了BNTFN中磁介电耦合的显著各向异性。在高频区域，在相同的频率(f)和外磁场(H)条件下，平行于c轴的MD耦合（MD//）表现出微弱的正效应，而垂直于c轴的MD耦合（MD//）则表现出明显的负效应。当H <； 5koe时，MD//随着H的增加而增加，而MD⊥仍然可以忽略不计。然而，当H超过5 kOe时，MD//接近饱和，随着H的进一步增加，MD//开始逐渐上升。值得注意的是，在1 MHz和低于10 kOe时，MD//在BNTFN中几乎是MD//的10或20倍。更重要的是，这项工作还阐明了四层钙钛矿化合物中微观结构与MD耦合之间的关系，为通过层状氧化物体系中的战略性微观结构操纵设计高灵敏度磁电容器件提供了有价值的见解。

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来源期刊

Journal of the American Ceramic Society 工程技术-材料科学：硅酸盐

CiteScore

7.50

自引率

7.70%

发文量

590

审稿时长

2.1 months

期刊介绍： The Journal of the American Ceramic Society contains records of original research that provide insight into or describe the science of ceramic and glass materials and composites based on ceramics and glasses. These papers include reports on discovery, characterization, and analysis of new inorganic, non-metallic materials; synthesis methods; phase relationships; processing approaches; microstructure-property relationships; and functionalities. Of great interest are works that support understanding founded on fundamental principles using experimental, theoretical, or computational methods or combinations of those approaches. All the published papers must be of enduring value and relevant to the science of ceramics and glasses or composites based on those materials. Papers on fundamental ceramic and glass science are welcome including those in the following areas: Enabling materials for grand challenges[...] Materials design, selection, synthesis and processing methods[...] Characterization of compositions, structures, defects, and properties along with new methods [...] Mechanisms, Theory, Modeling, and Simulation[...] JACerS accepts submissions of full-length Articles reporting original research, in-depth Feature Articles, Reviews of the state-of-the-art with compelling analysis, and Rapid Communications which are short papers with sufficient novelty or impact to justify swift publication.