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Journal of Electronic Materials

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31.07.2021 | Original Research Article

Theoretical Studies of Magnetoelectric Enhancement in Bar-Shaped Laminate Based on Mechanical Connection and Equivalent Circuit Methods

verfasst von: Chung Ming Leung, Kaiwen Wu

Erschienen in: Journal of Electronic Materials | Ausgabe 10/2021

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Abstract

The magnetoelectric (ME) laminated composite is an important multifunctional material for developing novel electronic devices that provide many applications in sensing, energy conversion, filtering, etc. Following the previous investigations, this paper proposes theoretical modeling to study the relationship between a bar-shaped ME laminated composite's enhancement effects and material properties. This composite has a breakthrough idea that produces two operating modes (sensing and transducing) in the same working process. Our analyses are based on the magneto-elastic-electric equivalent circuit and mechanical connections between an ME laminated composite and a piezoelectric plate. Our works not only predicted the ME outputs against magnetic field bias change but also studied the relationship of the length ratio between the ME laminated composite and the piezoelectric plate. The results showed that the ME outputs of the transduction mode are much bigger than the sensing mode at resonance, which strongly depended on the dimension and the physical properties of the sample. These findings provided a promising gate for the researchers to develop a single electronic device that combined sensing and power conversion.

Vorheriger Artikel Research on Microstructure and Shear Behavior of Au/Sn-Ag-Cu/Cu Lead-free Solder Joints at Different Soldering Temperatures

Nächster Artikel Formation of 2D-Layered (CH3NH3)3Sb2I9 Lead-Free Perovskite Phase from CH3NH3I and SbSI: Photodetection Activity in Carbon Based Lateral Devices

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Titel: Theoretical Studies of Magnetoelectric Enhancement in Bar-Shaped Laminate Based on Mechanical Connection and Equivalent Circuit Methods
verfasst von: Chung Ming Leung
Kaiwen Wu
Publikationsdatum: 31.07.2021
Verlag: Springer US
Erschienen in: Journal of Electronic Materials / Ausgabe 10/2021
Print ISSN: 0361-5235
Elektronische ISSN: 1543-186X
DOI: https://doi.org/10.1007/s11664-021-09134-w

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