Lead-free bulk ceramics for advanced pulsed power capacitors show relatively low recoverable energy storage density(Wrec)especially at low electric field condition.To address this challenge,we propose an A-site defect engineering to optimize the electric polarization behavior by disrupting the orderly arrangement of A-site ions,in which Ba0.105Na0.325Sr0.245-1.5x□0.5xBi0.325+xTiO3(BNS0.245-1.5x□0.5xB0.325+xT,x = 0,0.02,0.04,0.06,and 0.08)lead-free ceramics are selected as the representative.The BNS0.245-1.5x□0.5xB0.325+xT ceramics are prepared by using pressureless solid-state sintering and achieve large Wrec(1.8 J/cm3)at a low electric field(@110 kV/cm)when x = 0.06.The value of 1.8 J/cm3 is super high as compared to all other Wrec in lead-free bulk ceramics under a relatively low electric field(＜160 kV/cm).Furthermore,a high dielectric constant of 2930 within 15％fluctuation in a wide temperature range of 40-350℃is also obtained in BNS0.245-1.5x□0.5xB0.325+xT(x = 0.06)ceramics.The excellent performances can be attributed to the A-site defect engineering,which can reduce remnant polarization(Pr)and improve the thermal evolution of polar nanoregions(PNRs).This work confirms that the BNS0.245-1.5x□0.5xB0.325+xT(x = 0.06)ceramics are desirable for advanced pulsed power capacitors,and will push the development of a series of Bi0.5Na0.5TiO3(BNT)-based ceramics with high Wrec and high-temperature stability.

Zhipeng LI;Dong-Xu LI;Zong-Yang SHEN;Xiaojun ZENG;Fusheng SONG;Wenqin LUO;Xingcai WANG;Zhumei WANG;Yueming LI

Energy Storage and Conversion Ceramic Materials Engineering Laboratory of Jiangxi Province,China National Light Industry Key Laboratory of Functional Ceramic Materials,School of Materials Science and Engineering,Jingdezhen Ceramic University,Jingdezhen 333403,China;State Key Laboratory of Advanced Technology for Materials Synthesis and Processing,School of Materials Science and Engineering,Wuhan University of Technology,Wuhan 430070,China;Chengdu Hongke Electronic Technology Co.,Ltd.,Chengdu 610000,China

先进陶瓷（英文版）

[1]Zhipeng LI;Dong-Xu LI;Zong-Yang SHEN;Xiaojun ZENG;Fusheng SONG;Wenqin LUO;Xingcai WANG;Zhumei WANG;Yueming LI-.Remarkably enhanced dielectric stability and energy storage properties in BNT-BST relaxor ceramics by A-site defect engineering for pulsed power applications)[J].先进陶瓷（英文版）,2022(02):283-294

105Na0,325Sr0,5xBi0,325+xTiO3,BNS0,5xB0,325+xT,nanoregions,PNRs

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