Understanding, Predicting, and Designing Ferroelectric Domain Structures and Switching Guided by the Phase-Field Method

IF 10.6 2区 材料科学 Q1 MATERIALS SCIENCE, MULTIDISCIPLINARY
Jianjun Wang, Bo Wang, Long-qing Chen
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引用次数: 94

Abstract

Understanding mesoscale ferroelectric domain structures and their switching behavior under external fields is critical to applications of ferroelectrics. The phase-field method has been established as a powerful tool for probing, predicting, and designing the formation of domain structures under different electromechanical boundary conditions and their switching behavior under electric and/or mechanical stimuli. Here we review the basic framework of the phase-field model of ferroelectrics and its applications to simulating domain formation in bulk crystals, thin films, superlattices, and nanostructured ferroelectrics and to understanding macroscopic and local domain switching under electrical and/or mechanical fields. We discuss the possibility of utilizing the structure-property relationship learned from phase-field simulations to design high-performance relaxor piezoelectrics and electrically tunable thermal conductivity. The review ends with a summary of and an outlook on the potential new applications of the phase-field method of ferroelectrics.
用相场法来理解、预测和设计铁电畴结构和开关
了解中尺度铁电畴结构及其在外场作用下的开关行为对铁电材料的应用至关重要。相场法已经成为探测、预测和设计不同机电边界条件下畴结构的形成及其在电和/或机械刺激下的开关行为的有力工具。本文回顾了铁电体相场模型的基本框架及其在模拟块体晶体、薄膜、超晶格和纳米结构铁电体中的畴形成以及理解电场和/或机械场下宏观和局部畴切换方面的应用。我们讨论了利用从相场模拟中学到的结构-性能关系来设计高性能弛豫压电材料和电可调导热材料的可能性。最后对相场法在铁电体研究中的潜在新应用进行了总结和展望。
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
Annual Review of Materials Research
Annual Review of Materials Research 工程技术-材料科学:综合
CiteScore
17.70
自引率
1.00%
发文量
21
期刊介绍: The Annual Review of Materials Research, published since 1971, is a journal that covers significant developments in the field of materials research. It includes original methodologies, materials phenomena, material systems, and special keynote topics. The current volume of the journal has been converted from gated to open access through Annual Reviews' Subscribe to Open program, with all articles published under a CC BY license. The journal defines its scope as encompassing significant developments in materials science, including methodologies for studying materials and materials phenomena. It is indexed and abstracted in various databases, such as Scopus, Science Citation Index Expanded, Civil Engineering Abstracts, INSPEC, and Academic Search, among others.
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