An overview of the flexoelectric phenomenon, potential applications, and proposals for further research directions

IF 2.7 3区 材料科学 Q2 ENGINEERING, MECHANICAL
Phung Van Minh, Le Minh Thai, Nguyen Thai Dung, Abdelouahed Tounsi, Nguyen Thi Cam Nhung, Do Van Thom
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Abstract

Materials are of prime importance for designing and manufacturing structures and components in numerous industries, including aviation, aerospace, military, automotive, machine construction, electronics, and telecommunications, among others. Throughout the industrial transformations in human history, it is evident that the materials industry had the most significant impact on scientific and technological progress. In recent years, the Fourth Industrial Revolution has altered the infrastructure and character of production in a number of global industries. Materials science has been contributing a significant and essential role in the global competitiveness of all industries, particularly those utilizing electronic domains such as semiconductors, microprocessors, and sensors for industrial and social applications. Consequently, nanoscale materials with exceptional properties have garnered the interest of numerous researchers. One of these phenomena in dielectric materials is flexoelectricity. This phenomenon was discovered in the 1950s of the previous century, but it wasn't until the early 2000s, when materials science and other disciplines flourished, that many researchers began to focus on it. In recent years, the applicability of flexoelectric materials has increased across all disciplines. In addition, as a consequence of the importance of novel electrical materials to the flexoelectric effect, the research problem for this material broadly and the analysis of the mechanical responses of flexoelectric structures are being investigated and developed at a rapid rate. This paper provides an overview of the flexoelectric phenomenon, together with potential applications and recommendations for further study. The article’s content will serve as a valuable resource for scientists interested in dielectric materials with unique electromechanical effects, which are extensively used in contemporary electronic disciplines.

Abstract Image

柔性电现象概述、潜在应用和进一步研究方向的建议
材料在航空、航空航天、军事、汽车、机器制造、电子和电信等众多行业的结构和部件设计和制造中至关重要。纵观人类历史上的工业变革,显然材料工业对科学技术进步的影响最为重大。近年来,第四次工业革命改变了一些全球工业的基础设施和生产特点。材料科学在所有行业的全球竞争力中都发挥着重要作用,尤其是那些利用半导体、微处理器和传感器等电子领域进行工业和社会应用的行业。因此,具有特殊性能的纳米材料引起了众多研究人员的兴趣。介电材料中的这些现象之一是挠曲电。这一现象是在上个世纪50年代发现的,但直到21世纪初,当材料科学和其他学科蓬勃发展时,许多研究人员才开始关注它。近年来,柔性电材料在所有学科中的适用性都有所提高。此外,由于新型电气材料对柔性电效应的重要性,对该材料的广泛研究问题以及柔性电结构的机械响应分析正在迅速进行研究和发展。本文概述了柔性电现象,以及潜在的应用和进一步研究的建议。这篇文章的内容将为对具有独特机电效应的介电材料感兴趣的科学家提供宝贵的资源,这些材料在当代电子学科中被广泛使用。
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来源期刊
International Journal of Mechanics and Materials in Design
International Journal of Mechanics and Materials in Design ENGINEERING, MECHANICAL-MATERIALS SCIENCE, MULTIDISCIPLINARY
CiteScore
6.00
自引率
5.40%
发文量
41
审稿时长
>12 weeks
期刊介绍: It is the objective of this journal to provide an effective medium for the dissemination of recent advances and original works in mechanics and materials'' engineering and their impact on the design process in an integrated, highly focused and coherent format. The goal is to enable mechanical, aeronautical, civil, automotive, biomedical, chemical and nuclear engineers, researchers and scientists to keep abreast of recent developments and exchange ideas on a number of topics relating to the use of mechanics and materials in design. Analytical synopsis of contents: The following non-exhaustive list is considered to be within the scope of the International Journal of Mechanics and Materials in Design: Intelligent Design: Nano-engineering and Nano-science in Design; Smart Materials and Adaptive Structures in Design; Mechanism(s) Design; Design against Failure; Design for Manufacturing; Design of Ultralight Structures; Design for a Clean Environment; Impact and Crashworthiness; Microelectronic Packaging Systems. Advanced Materials in Design: Newly Engineered Materials; Smart Materials and Adaptive Structures; Micromechanical Modelling of Composites; Damage Characterisation of Advanced/Traditional Materials; Alternative Use of Traditional Materials in Design; Functionally Graded Materials; Failure Analysis: Fatigue and Fracture; Multiscale Modelling Concepts and Methodology; Interfaces, interfacial properties and characterisation. Design Analysis and Optimisation: Shape and Topology Optimisation; Structural Optimisation; Optimisation Algorithms in Design; Nonlinear Mechanics in Design; Novel Numerical Tools in Design; Geometric Modelling and CAD Tools in Design; FEM, BEM and Hybrid Methods; Integrated Computer Aided Design; Computational Failure Analysis; Coupled Thermo-Electro-Mechanical Designs.
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