Crystals (Apr 2023)

Tunable Phase Structure in Mn-Doped Lead-Free BaTiO<sub>3</sub> Crystalline/Amorphous Energy Storage Thin Films

  • Jianlu Geng,
  • Dongxu Li,
  • Hua Hao,
  • Qinghu Guo,
  • Huihuang Xu,
  • Minghe Cao,
  • Zhonghua Yao,
  • Hanxing Liu

DOI
https://doi.org/10.3390/cryst13040649
Journal volume & issue
Vol. 13, no. 4
p. 649

Abstract

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For dielectric energy storage materials, high polarization and high breakdown strengths are a long-standing challenge. A modulating crystalline/amorphous phase structure strategy is proposed by Mn-doping and annealing temperature to enhance the energy storage performance of pure BaTiO3 (BT) films. In this study, lead-free Mn-doped BT films were prepared on Pt/Ti/SiO2/Si substrates via the sol-gel method, and the effects of the crystalline/amorphous phase ratio on polarization and electric properties were analyzed. A small amount of Mn-doping in BT could reduce the annealing temperature and enhance polarization with an Mn content of 8%. In addition, the energy storage properties of BT-8%Mn films achieve the best energy storage performance in terms of energy density and efficiency of 72.4 J/cm3 and 88.5% by changing the annealing temperature to 640 °C. BT-8%Mn energy storage films also possess good stability over a wide temperature range of 20 °C–200 °C, which demonstrates that crystalline/amorphous engineering is a simple and effective way to enhance energy storage applications of dielectric films.

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