Electric field assisted spark plasma sintering of ABO3 perovskites: Crystal structure, dielectric behavior and future challenges

IF 4.6 Q2 MATERIALS SCIENCE, BIOMATERIALS
Subramani Supriya
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Abstract

Plenty of traditional and novel sintering techniques have been utilized to enhance the performance of perovskite materials. Among several sintering methods, electric field-assisted spark plasma sintering (SPS) is a modern category and has been effective for the excellent functionalities of perovskite compounds. The state-of-the-art SPS systems, perovskite materials development, and corresponding design are focused. This article will highlight the parameters of this technique, the advanced procedure of sintering, and their respective effects on the densification and dielectric performance of ABO3 perovskite materials. No such work has been reported to relate the crystalline nature of the various functional perovskites with the spark plasma sintering procedures. This review illustrates a good compilation of recently reported few perovskite materials processed by spark plasma sintering and relationships between thermal effects, density, and dielectric performance. The enhanced density, high dielectric permittivity, and low dielectric loss were achieved due to SPS.

Abstract Image

电场辅助火花等离子烧结 ABO3 包晶:晶体结构、介电行为和未来挑战
人们利用大量传统和新型烧结技术来提高过氧化物材料的性能。在几种烧结方法中,电场辅助火花等离子体烧结(SPS)是现代烧结方法的一种,对实现包晶化合物的优异功能非常有效。本文重点介绍了最先进的火花等离子体烧结系统、包晶石材料的开发以及相应的设计。本文将重点介绍该技术的参数、先进的烧结程序,以及它们对 ABO3 包晶材料致密化和介电性能的影响。目前还没有关于将各种功能包晶石的结晶性质与火花等离子烧结程序联系起来的研究报告。本综述很好地汇编了最近报道的几种用火花等离子烧结法加工的包晶材料,以及热效应、密度和介电性能之间的关系。火花等离子烧结技术实现了更高的密度、更高的介电常数和更低的介电损耗。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
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来源期刊
ACS Applied Bio Materials
ACS Applied Bio Materials Chemistry-Chemistry (all)
CiteScore
9.40
自引率
2.10%
发文量
464
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