Flexible magnetoelectric systems: Types, principles, materials, preparation and application DOI
Shanfei Zhang,

Zhuofan Li,

Yizhuo Xu

et al.

Applied Physics Reviews, Journal Year: 2024, Volume and Issue: 11(4)

Published: Nov. 13, 2024

Recently, the rapid development of flexible electronic materials and devices has profoundly influenced various aspects social development. Flexible magnetoelectric systems (FMESs), leveraging coupling, hold vast potential applications in fields sensing, memory storage, biomedicine, energy harvesting, soft robotics. Consequently, they have emerged as a significant branch within realm devices. According to its working principle, FMES are divided into three categories: based on magnetodeformation piezoelectric effects, giant magnetoresistive effect, electromagnetic induction. Although some articles reviewed first two types FMES, there is lack systematic introduction induction existing studies, especially history research status FMES. Therefore, this paper systematically reviews these kinds reveals principle mode system from perspective force-electricity-magnetism coupling mode. In addition, material selection criteria, device manufacturing methods, application also introduced. Finally, review delves challenges opportunities confronting exploring future directions. This aims establish theoretical foundation provide methodological strategies for It anticipated promptly address current gap field facilitate family.

Language: Английский

Flexible magnetoelectric systems: Types, principles, materials, preparation and application DOI
Shanfei Zhang,

Zhuofan Li,

Yizhuo Xu

et al.

Applied Physics Reviews, Journal Year: 2024, Volume and Issue: 11(4)

Published: Nov. 13, 2024

Recently, the rapid development of flexible electronic materials and devices has profoundly influenced various aspects social development. Flexible magnetoelectric systems (FMESs), leveraging coupling, hold vast potential applications in fields sensing, memory storage, biomedicine, energy harvesting, soft robotics. Consequently, they have emerged as a significant branch within realm devices. According to its working principle, FMES are divided into three categories: based on magnetodeformation piezoelectric effects, giant magnetoresistive effect, electromagnetic induction. Although some articles reviewed first two types FMES, there is lack systematic introduction induction existing studies, especially history research status FMES. Therefore, this paper systematically reviews these kinds reveals principle mode system from perspective force-electricity-magnetism coupling mode. In addition, material selection criteria, device manufacturing methods, application also introduced. Finally, review delves challenges opportunities confronting exploring future directions. This aims establish theoretical foundation provide methodological strategies for It anticipated promptly address current gap field facilitate family.

Language: Английский

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