期刊
SCIENTIFIC REPORTS
卷 11, 期 1, 页码 -出版社
NATURE PORTFOLIO
DOI: 10.1038/s41598-021-87100-6
关键词
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资金
- Ministry of Higher Education, Malaysia
- Fundamental Research Grant Schemes (FRGS) [FRGS/1/2018/TK04/UKM/01/1]
- Qatar National Research Fund, Qatar Foundation, Doha, Qatar [NPRP12S-0227-190164]
This article proposes a single negative (SNG) metamaterial fabricated on Mg-Zn ferrite-based flexible microwave composites. The synthesized flexible composites have different compositions and exhibit promising structural, morphological, and microwave properties. The SNG metamaterials fabricated on these composites show good electromagnetic behaviors and have potential applications in microwave and flexible technologies.
In this article, we propose SNG (single negative) metamaterial fabricated on Mg-Zn ferrite-based flexible microwave composites. Firstly, the flexible composites are synthesized by the sol-gel method having four different molecular compositions of MgxZn(1-x)Fe2O4, which are denoted as Mg-20, Mg-40,Mg- Mg-60,Mg- and Mg-80. The structural, morphological, and microwave properties of the synthesized flexible composites are analyzed using X-ray diffraction (XRD), field emission scanning electron microscopy (FESEM), and conventional dielectric assessment kit (DAK) to justify their possible application as dielectric substrate at microwave frequency regime. Thus the average grain size is found from 20 to 24 nm, and the dielectric constants are 6.01, 5.10, 4.19, and 3.28, as well as loss tangents, are 0.002, 0.004, 0.006, and 0.008 for the prepared Mg-Zn ferrites, i.e., Mg-20,Mg- Mg-40,Mg- Mg-60,Mg- and Mg-80 respectively. Besides, the prepared low-cost Mg-Zn ferrite composites exhibit high flexibility and lightweight, which makes them a potential candidate as a metamaterial substrate. Furthermore, a single negative (SNG) metamaterial unit cell is fabricated on the prepared, flexible microwave composites, and their essential electromagnetic behaviors are observed. Very good effective medium ratios (EMR) vales are obtained from 14.65 to 18.47, which ensure the compactness of the fabricated prototypes with a physical dimension of 8 x 6.5 mm(.)(2) Also, the proposed materials have shown better performances comparing with conventional FR4 and RO4533 materials, and they have covered S-, C-, X-, Ku-, and K-band of microwave frequency region. Thus, the prepared, flexible SNG metamaterials on MgxZn(1-x)Fe2O4 composites are suitable for microwave and flexible technologies.
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