Litcius/Paper detail

Energy storage and discharge performance for (1− <i>x</i> )BaSrTiO <sub>3</sub> − <i>x</i> Bi(Zn <sub>1/2</sub> Ti <sub>1/2</sub> )O <sub>3</sub> ceramics

Zhonghua Dai, Chenxi Liu, Yihao Pan, Jie Hou, Yu Pan, Xin Zhao, Weiguo Liu, Yu Cong, Shuitao Gu

2024International Journal of Applied Ceramic Technology12 citationsDOI

Abstract

Abstract Although lead‐free dielectric ceramics have been widely studied to obtain excellent dielectric properties and good energy storage properties, the primary challenge of low energy storage density has not yet been resolved. Here, we introduce the concept of crossover relaxor ferroelectrics, which represent a state intermediate between normal ferroelectrics and relaxor ferroelectrics, as a solution to address the issue of low energy density. The (1− x )BaSrTiO 3 − x Bi(Zn 1/2 Ti 1/2 )O 3 ( x = 0,.05, .1, .15, .2) ceramics were prepared by a solid‐state method. Remarkably, 0.85BST–0.15BZT ceramics achieved a high recoverable energy density ( W rec ) of 2.18 J/cm 3 under an electric field of 240 kV/cm. BST–BZT materials exhibit substantial recoverable energy density, high breakdown strength, and superior energy efficiency, positioning them as a promising alternative to meet the diverse demands of high‐power applications.

Topics & Concepts

Materials scienceDielectricEnergy storageCeramicEnergy densityEnergy (signal processing)Electric fieldPower densityCondensed matter physicsEngineering physicsThermodynamicsPower (physics)OptoelectronicsMetallurgyPhysicsQuantum mechanicsFerroelectric and Piezoelectric MaterialsDielectric materials and actuatorsMultiferroics and related materials