SusMat (Feb 2024)

A novel lead‐free relaxor with endotaxial nanostructures for capacitive energy storage

  • Xiaoyan Dong,
  • Tengfei Hu,
  • Xiaojun Wu,
  • Jie Yin,
  • Zhengqian Fu,
  • Jiagang Wu

DOI
https://doi.org/10.1002/sus2.174
Journal volume & issue
Vol. 4, no. 1
pp. 116 – 125

Abstract

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Abstract Dielectric capacitors with a fast charging/discharging rate, high power density, and long‐term stability are essential components in modern electrical devices. However, miniaturizing and integrating capacitors face a persistent challenge in improving their energy density (Wrec) to satisfy the specifications of advanced electronic systems and applications. In this work, leveraging phase‐field simulations, we judiciously designed a novel lead‐free relaxor ferroelectric material for enhanced energy storage performance, featuring flexible distributed weakly polar endotaxial nanostructures (ENs) embedded within a strongly polar fluctuation matrix. The matrix contributes to substantially enhanced polarization under an external electric field, and the randomly dispersed ENs effectively optimize breakdown phase proportion and provide a strong restoring force, which are advantageous in bolstering breakdown strength and minimizing hysteresis. Remarkably, this relaxor ferroelectric system incorporating ENs achieves an exceptionally high Wrec value of 10.3 J/cm3, accompanied by a large energy storage efficiency (η) of 85.4%. This work introduces a promising avenue for designing new relaxor materials capable of capacitive energy storage with exceptional performance characteristics.

Keywords