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• W3183061793 abstract "• Novel geometrically modified magneto-electric laminates are presented. • An increased working frequency keeping a high magneto-electric response is observed. • Triangular and rhombic shaped magneto-electric laminates show enhanced performance. • These results open the door towards their implementation in high frequency devices. This work presents novel geometrically modified magnetoelectric (ME) laminates based on the Fe 64 Co 17 Si 6.6 B 12.4 metallic glass and the polyvinylidene fluoride (PVDF) piezoelectric polymer. Laminates with rectangular, triangular and rhombic shapes with an area of 25 mm 2 have been fabricated. The induced ME responses of the laminates under an applied DC magnetic field and as a function of the frequency have been analyzed. The results evidence that at the electromechanical resonance frequency, the triangular and rhombic shaped laminates show an improved induced ME response (102 mV and 103 mV, respectively) in comparison with the common rectangular shaped one (98 mV). Furthermore, the working frequencies of the triangular and rhombic laminates significantly increase up to 83 kHz and 102 kHz, respectively, with respect to the rectangular one (67 kHz). Going a step forward, the novel geometries have been compared with that of rectangular magnetoelectric laminates of equivalent EMR frequencies (19 mm and 17 mm long laminates for 83 kHz and 102 kHz, respectively). These rectangular laminates show a drastic drop of their induced ME responses (29 mV and 6.7 mV, respectively), due to the quality factor impair caused by the demagnetizing effects in these shorter samples. This study represents a critical advance in the performance of magnetoelectric laminated composites through geometry modification, opening the door to their implementation in enhanced high frequency devices." @default.
• W3183061793 created "2021-07-19" @default.
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• W3183061793 date "2021-12-01" @default.
• W3183061793 modified "2023-10-06" @default.
• W3183061793 title "Enhanced performance of magnetoelectric laminated composites by geometry engineering for high frequency applications" @default.
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• W3183061793 doi "https://doi.org/10.1016/j.jallcom.2021.161065" @default.
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