Tripling energy storage density through order-disorder transition induced polar nanoregions in PbZrO₃ thin films by ion implantation

Luo, Yongjian; Wang, Changan; Chen, Chao; Gao, Yuan; Sun, Fei; Li, Caiwen; Yin, Xiaozhe; Luo, Chunlai; Kentsch, Ulrich; Cai, Xiangbin; Bai, Mei; Fan, Zhen; Qin, Minghui; Zeng, Min; Dai, Jiyan; Zhou, Guofu; Lu, Xubing; Lou, Xiaojie; Zhou, Shengqiang; Gao, Xingsen; Chen, Deyang; Liu, Jun-Ming

Please use this identifier to cite or link to this item: https://hdl.handle.net/10356/169710

Title:	Tripling energy storage density through order-disorder transition induced polar nanoregions in PbZrO₃ thin films by ion implantation
Authors:	Luo, Yongjian Wang, Changan Chen, Chao Gao, Yuan Sun, Fei Li, Caiwen Yin, Xiaozhe Luo, Chunlai Kentsch, Ulrich Cai, Xiangbin Bai, Mei Fan, Zhen Qin, Minghui Zeng, Min Dai, Jiyan Zhou, Guofu Lu, Xubing Lou, Xiaojie Zhou, Shengqiang Gao, Xingsen Chen, Deyang Liu, Jun-Ming
Keywords:	Science::Physics
Issue Date:	2023
Source:	Luo, Y., Wang, C., Chen, C., Gao, Y., Sun, F., Li, C., Yin, X., Luo, C., Kentsch, U., Cai, X., Bai, M., Fan, Z., Qin, M., Zeng, M., Dai, J., Zhou, G., Lu, X., Lou, X., Zhou, S., ...Liu, J. (2023). Tripling energy storage density through order-disorder transition induced polar nanoregions in PbZrO₃ thin films by ion implantation. Applied Physics Reviews, 10(1), 011403-1-011403-7. https://dx.doi.org/10.1063/5.0102882
Journal:	Applied Physics Reviews
Abstract:	Dielectric capacitors are widely used in pulsed power electronic devices due to their ultrahigh power densities and extremely fast charge/discharge speed. To achieve enhanced energy storage density, maximum polarization (Pmax) and breakdown strength (Eb) need to be improved simultaneously. However, these two key parameters are inversely correlated. In this study, order-disorder transition induced polar nanoregions have been achieved in PbZrO3 thin films by making use of the low-energy ion implantation, enabling us to overcome the trade-off between high polarizability and breakdown strength, which leads to the tripling of the energy storage density from 20.5 to 62.3 J/cm3 as well as the great enhancement of breakdown strength. This approach could be extended to other dielectric oxides to improve the energy storage performance, providing a new pathway for tailoring the oxide functionalities.
URI:	https://hdl.handle.net/10356/169710
ISSN:	1931-9401
DOI:	10.1063/5.0102882
Schools:	School of Physical and Mathematical Sciences
Rights:	© 2023 Author(s). All rights reserved. This article may be downloaded for personal use only. Any other use requires prior permission of the author and AIP Publishing. This article appeared in Luo, Y., Wang, C., Chen, C., Gao, Y., Sun, F., Li, C., Yin, X., Luo, C., Kentsch, U., Cai, X., Bai, M., Fan, Z., Qin, M., Zeng, M., Dai, J., Zhou, G., Lu, X., Lou, X., Zhou, S., ...Liu, J. (2023). Tripling energy storage density through order-disorder transition induced polar nanoregions in PbZrO₃ thin films by ion implantation. Applied Physics Reviews, 10(1), 011403-1 - 011403-7 and may be found at https://doi.org/10.1063/5.0102882
Fulltext Permission:	open
Fulltext Availability:	With Fulltext
Appears in Collections:	SPMS Journal Articles

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