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Open Access

Ultrahigh electric field-induced asymmetric strain in Mn-doped KNN piezoceramics sintered in reducing atmosphere

Xiao MaaZhihao DongbWeichen ZhangaYing JiangaXu ChengaLimin Guoa,cPeiyao Zhaoa( )Xiaohui Wanga( )
State Key Laboratory of New Ceramic Materials, School of Materials Science and Engineering, Tsinghua University, Beijing, 100084, China
National Key Laboratory of Advanced Composites, AECC Beijing Institute of Aeronautical Materials, Beijing, 100095, China
School of Physical Science and Technology, Beijing University of Posts and Telecommunications, Beijing, 100876, China
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Abstract

Piezoelectric actuators are widely used industrial electronic devices. In recent years, driven by environmental concerns, lead-free piezoelectric materials, particularly KNN-based ceramics, have gained increasing attention. In this study, Mn-doped KNN piezoelectric ceramics were synthesized by the conventional solid-state reaction method and sintered in a reducing atmosphere. By employing a synergistic strategy involving defect dipoles and ferroelectric domain switching, a giant converse piezoelectric coefficient (d33*) of 2676 pm/V and a strain of 0.67% are achieved in the KNNM ceramics under an electric field of 2.5 kV/mm. In our ceramic samples, no obvious strain enhancement attributable to electrobending is observed. The ceramic exhibits excellent thermal stability, with performance degradation of less than 10% from room temperature to 170 ℃, and maintains favorable performance after 2 million fatigue cycles. Considering the combination of excellent piezoelectric properties, high temperature stability, superior fatigue resistance, and reduction resistance, KNNM ceramics are expected to facilitate the development of lead-free piezoelectric actuators compatible with base-metal internal electrodes.

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Journal of Materiomics

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Cite this article:
Ma X, Dong Z, Zhang W, et al. Ultrahigh electric field-induced asymmetric strain in Mn-doped KNN piezoceramics sintered in reducing atmosphere. Journal of Materiomics, 2026, 12(4). https://doi.org/10.1016/j.jmat.2026.101248

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Received: 09 October 2025
Revised: 14 January 2026
Accepted: 15 January 2026
Published: 30 April 2026
© 2026 The Authors.

This is an open access article under the CC BY-NC-ND license (http://creativecommons.org/licenses/by-nc-nd/4.0/).