Advanced Science (Feb 2024)

Boosting Energy Storage Performance of Glass Ceramics via Modulating Defect Formation During Crystallization

  • Fei Shang,
  • Juwen Wei,
  • Jiwen Xu,
  • Haibo Zhang,
  • Yang Xia,
  • Guisheng Zhu,
  • Kunpeng Jiang,
  • Guohua Chen,
  • Zuoguang Ye,
  • Huarui Xu

DOI
https://doi.org/10.1002/advs.202307011
Journal volume & issue
Vol. 11, no. 7
pp. n/a – n/a

Abstract

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Abstract Along with the demand for further miniaturization of high and pulsed power devices, it becomes more and more important to realize ultrahigh recoverable energy storage density (Wrec) with high energy storage efficiency (η) and ultrahigh discharge energy storage density (Wd) accompanied by high power density (Pd) in dielectrics. To date, it remains, however, a big challenge to achieve high Wrec or Wd in glass ceramics compared to other dielectric energy storage materials. Herein, a strategy of defect formation modulation is applied to form “amorphous‐disordered‐ordered” microstructure in BaTiO3‐based glass ceramics so as to achieve a high Wrec of 12.04 J cm−3 with a high η of 81.1% and an ultrahigh Wd of 11.98 J cm−3 with a superb Pd of 973 MW cm−3. This work demonstrates a feasible route to obtain glass ceramics with an outstanding energy storage performance and proves the enormous potential of glass ceramics in high and pulsed power applications.

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