1. Observation of Anomalously Large Magnetoelectric Coupling in the Hexagonal Z‐Type Ferrite Films
- Author
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Kwang Woo Shin, Miroslav Soroka, Aga Shahee, Kee Hoon Kim, Josef Buršík, Radomír Kužel, Marek Vronka, Myriam Haydee Aguirre, National Research Foundation of Korea, Ministry of Education (South Korea), Czech Science Foundation, European Commission, and Universidad de Zaragoza
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Electronic, Optical and Magnetic Materials - Abstract
Although the bulk hexaferrites are known to exhibit strong magnetoelectric (ME) effects near room temperature, the same effects are not realized in a thin film form. Herein, the growth of nearly epitaxial Co2Z-type hexaferrite Ba0.3Sr2.7Co2Fe24O41 (BSCFO) thin films on a SrTiO3 (111) substrate by a chemical solution deposition method is reported. The reciprocal space mapping on the annealed BSCFO films reveals broadening along the qx directions in the (0014) and (0018) peaks, indicating that the oxygen planes belonging to the off-centered octahedra have randomly distributed out-of-plane tilt to indicate significant disorder in the crystallographic orientation. Quantitative investigations reveal that both ME susceptibility and modulated electric polarization (ΔP) by magnetic field up to 370 K in the BSCFO films are always larger than those of the Co2Z-type single crystal by ≈2–15 times and further increase upon having enhanced qx broadening in the (0014) and (0018) peaks. As the off-centered octahedral sites can be a primary source of ΔP as predicted by the p–d hybridization mechanism, these results indicate that effective off-centering could be further enhanced by the orientational disorder. This study identifies the potential of applying the ME hexaferrite films for multifunctional devices., This work was financially supported by the National Research Foundation of S. Korea through 2019R1A2C2090648, 2019M3E4A1080227, and by the Ministry of Education of S. Korea through 2021R1A6C101B418. The works in Czech were supported by the GACR (Czech Science Foundation) Project Nos. 19-06433S and H2020-MSCA-RISE-2016 SPICOLOST under Grant No. 734187 for TEM analysis at LMA-INA, University of Zaragoza, and by the Nanomaterial Center for Advanced Applications(NANOCENT), No. CZ.02.1.01/0.0/0.0/15_003/0000485.
- Published
- 2022
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