Ultrahigh-Efficiency Superior Energy Storage in Lead-Free Films with a Simple Composition

Tianyu Li; Shiqing Deng; Ruixue Zhu; Jiyuan Yang; Shiqi Xu; Yongqi Dong; Hui Liu; Chuanrui Huo; Peng Gao; Zhenlin Luo; Oswaldo Diéguez; Houbing Huang; Shi Liu; Long Qing Chen; He Qi; Jun Chen

doi:10.1021/jacs.3c08903

Ultrahigh-Efficiency Superior Energy Storage in Lead-Free Films with a Simple Composition

Tianyu Li, Shiqing Deng^*, Ruixue Zhu, Jiyuan Yang, Shiqi Xu, Yongqi Dong, Hui Liu, Chuanrui Huo, Peng Gao, Zhenlin Luo, Oswaldo Diéguez, Houbing Huang, Shi Liu, Long Qing Chen, He Qi^*, Jun Chen^*

^*Corresponding author for this work

Advanced Research Institute of Multidisciplinary Science

Research output: Contribution to journal › Article › peer-review

12 Citations (Scopus)

Abstract

Dielectric capacitors are highly desired in modern electronic devices and power systems to store and recycle electric energy. However, achieving simultaneous high energy density and efficiency remains a challenge. Here, guided by theoretical and phase-field simulations, we are able to achieve a superior comprehensive property of ultrahigh efficiency of 90-94% and high energy density of 85-90 J cm^-3 remarkably in strontium titanate (SrTiO₃), a linear dielectric of a simple chemical composition, by manipulating local symmetry breaking through introducing Ti/O defects. Atomic-scale characterizations confirm that these Ti/O defects lead to local symmetry breaking and local lattice strains, thus leading to the formation of the isolated ultrafine polar nanoclusters with varying sizes from 2 to 8 nm. These nanoclusters account for both considerable dielectric polarization and negligible polarization hysteresis. The present study opens a new realm of designing high-performance dielectric capacitors utilizing a large family of readily available linear dielectrics with very simple chemistry.

Original language	English
Pages (from-to)	1926-1934
Number of pages	9
Journal	Journal of the American Chemical Society
Volume	146
Issue number	3
DOIs	https://doi.org/10.1021/jacs.3c08903
Publication status	Published - 24 Jan 2024

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Li, T., Deng, S., Zhu, R., Yang, J., Xu, S., Dong, Y., Liu, H., Huo, C., Gao, P., Luo, Z., Diéguez, O., Huang, H., Liu, S., Chen, L. Q., Qi, H., & Chen, J. (2024). Ultrahigh-Efficiency Superior Energy Storage in Lead-Free Films with a Simple Composition. Journal of the American Chemical Society, 146(3), 1926-1934. https://doi.org/10.1021/jacs.3c08903

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title = "Ultrahigh-Efficiency Superior Energy Storage in Lead-Free Films with a Simple Composition",

abstract = "Dielectric capacitors are highly desired in modern electronic devices and power systems to store and recycle electric energy. However, achieving simultaneous high energy density and efficiency remains a challenge. Here, guided by theoretical and phase-field simulations, we are able to achieve a superior comprehensive property of ultrahigh efficiency of 90-94% and high energy density of 85-90 J cm-3 remarkably in strontium titanate (SrTiO3), a linear dielectric of a simple chemical composition, by manipulating local symmetry breaking through introducing Ti/O defects. Atomic-scale characterizations confirm that these Ti/O defects lead to local symmetry breaking and local lattice strains, thus leading to the formation of the isolated ultrafine polar nanoclusters with varying sizes from 2 to 8 nm. These nanoclusters account for both considerable dielectric polarization and negligible polarization hysteresis. The present study opens a new realm of designing high-performance dielectric capacitors utilizing a large family of readily available linear dielectrics with very simple chemistry.",

author = "Tianyu Li and Shiqing Deng and Ruixue Zhu and Jiyuan Yang and Shiqi Xu and Yongqi Dong and Hui Liu and Chuanrui Huo and Peng Gao and Zhenlin Luo and Oswaldo Di{\'e}guez and Houbing Huang and Shi Liu and Chen, {Long Qing} and He Qi and Jun Chen",

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AU - Li, Tianyu

AU - Deng, Shiqing

AU - Zhu, Ruixue

AU - Yang, Jiyuan

AU - Xu, Shiqi

AU - Dong, Yongqi

AU - Liu, Hui

AU - Huo, Chuanrui

AU - Gao, Peng

AU - Luo, Zhenlin

AU - Diéguez, Oswaldo

AU - Huang, Houbing

AU - Liu, Shi

AU - Chen, Long Qing

AU - Qi, He

AU - Chen, Jun

PY - 2024/1/24

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N2 - Dielectric capacitors are highly desired in modern electronic devices and power systems to store and recycle electric energy. However, achieving simultaneous high energy density and efficiency remains a challenge. Here, guided by theoretical and phase-field simulations, we are able to achieve a superior comprehensive property of ultrahigh efficiency of 90-94% and high energy density of 85-90 J cm-3 remarkably in strontium titanate (SrTiO3), a linear dielectric of a simple chemical composition, by manipulating local symmetry breaking through introducing Ti/O defects. Atomic-scale characterizations confirm that these Ti/O defects lead to local symmetry breaking and local lattice strains, thus leading to the formation of the isolated ultrafine polar nanoclusters with varying sizes from 2 to 8 nm. These nanoclusters account for both considerable dielectric polarization and negligible polarization hysteresis. The present study opens a new realm of designing high-performance dielectric capacitors utilizing a large family of readily available linear dielectrics with very simple chemistry.

AB - Dielectric capacitors are highly desired in modern electronic devices and power systems to store and recycle electric energy. However, achieving simultaneous high energy density and efficiency remains a challenge. Here, guided by theoretical and phase-field simulations, we are able to achieve a superior comprehensive property of ultrahigh efficiency of 90-94% and high energy density of 85-90 J cm-3 remarkably in strontium titanate (SrTiO3), a linear dielectric of a simple chemical composition, by manipulating local symmetry breaking through introducing Ti/O defects. Atomic-scale characterizations confirm that these Ti/O defects lead to local symmetry breaking and local lattice strains, thus leading to the formation of the isolated ultrafine polar nanoclusters with varying sizes from 2 to 8 nm. These nanoclusters account for both considerable dielectric polarization and negligible polarization hysteresis. The present study opens a new realm of designing high-performance dielectric capacitors utilizing a large family of readily available linear dielectrics with very simple chemistry.

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Ultrahigh-Efficiency Superior Energy Storage in Lead-Free Films with a Simple Composition

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