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Composition and Structure Optimized BiFeO 3 -SrTiO 3 Lead-Free Ceramics with Ultrahigh Energy Storage Performance.

Fei YanHairui BaiGuanglong GeJinfeng LinCheng ShiKun ZhuBo ShenJiwei ZhaiShujun Zhang
Published in: Small (Weinheim an der Bergstrasse, Germany) (2022)
Dielectric ceramic capacitors have attracted increasing attention as advanced pulsed power devices and modern electronic systems owing to their fast charge/discharge speed and high power density. However, it is challenging to meet the urgent needs of lead-free ceramics with superior energy storage performance in practical applications. Herein, a strategy for the composition and structural modification is proposed to overcome the current challenge. The lead-free ceramics composed of BiFeO 3 -SrTiO 3 are fabricated. A low hysteresis and high polarization can be achieved via composition optimization. The experimental results and finite element simulations indicate that the two-step sintering method significantly influences the decrease in the grain size and improvement in the breakdown strength (E BDS ). A high E BDS of ≈750 kV cm -1 accompanied by a large maximum polarization (≈40 µC cm -2 ) and negligible remanent polarization (<2 µC cm -2 ) contribute to the ultrahigh energy density and efficiency values of the order of 8.4 J cm -3 and ≈90%, respectively. Both energy density and efficiency exhibit excellent stability over the frequency range of 1-100 Hz and temperatures up to 120 °C, along with the superior power density of 280 MW cm -3 , making the studied BiFeO 3 -SrTiO 3 ceramics potentially useful for high-power energy storage applications.
Keyphrases
  • finite element
  • magnetic resonance
  • molecular dynamics