Stable macro-performance at extreme cold region for KNN-based ceramics with modified phase boundary

High performance with good stability is important for practical application of electronic devices. As abundant researches related to the stability at room temperature and above have been adopted, the characteristic at extreme cold region is little concentrated on, impeding the development of plateau...

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Bibliographic Details
Published in:Journal of alloys and compounds 2024-05, Vol.985, p.174042, Article 174042
Main Authors: Tao, Hong, Ma, Jian, Wu, Wenjuan, Zhao, Lin, Zong, QingShuang, Wu, Bo, Ergu, Daji
Format: Article
Language:English
Subjects:
Extreme cold region
Lead-free ceramics
Phase boundary
Temperature stability
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Summary:High performance with good stability is important for practical application of electronic devices. As abundant researches related to the stability at room temperature and above have been adopted, the characteristic at extreme cold region is little concentrated on, impeding the development of plateau section. Herein, the stability of electrical properties is emphasized on at extreme cold region for the KNN ceramics with polycrystal phase boundary. Rhombohedral-orthorhombic (R-O) phase boundary is successfully formed from extreme cold region to room temperature. Notably, stable polarization is revealed with maintained R-O phase boundary. Little changed piezoelectric response is gained with modified R-O phase boundary, indicating that abundant O and lesser R phases coexistence is beneficial of improving temperature stability at extreme cold region. Thus, this work demonstrates a tool for optimizing performance at extreme cold region of lead-free ceramics, accelerating the application of electronic devices at plateau-climate regions. [Display omitted] •Temperature stability of macro-performance is concentrated on at extreme cold region for device at alpine regions.•Improved temperature stability is realized at extreme cold region to room temperature of KNN-based ceramics.•Coexistence of abundant O and lesser R phases is beneficial of domain switching at extreme cold region.
ISSN:0925-8388
1873-4669
DOI:10.1016/j.jallcom.2024.174042