Litcius/Paper detail

Dielectric characterization of Mg–Zn ferrite-based high permittivity flexible substrate for SNG metamaterial

Ismail Hossain, Mohammad Tariqul Islam, Md Samsuzzaman, Haitham Alsaif, Hatem Rmili, Mohamed S. Soliman

2023Journal of Materials Research and Technology19 citationsDOIOpen Access PDF

Abstract

This article reports the preparation of MgxZn(1-x)Fe2O4 ferrite-based flexible substrate using the sol–gel synthesis method. A stove-shaped metamaterial unit cell is designed and fabricated on a flexible substrate, and the microwave performance of the structure is investigated. The developed flexible composite substrate is built using PVA glue and a micro-scale of Mg–Zn ferrite nanoparticle powder, while this powder is used as filler. The structural (XRD) and morphological (FESEM) investigation allows for being used as a flexible substrate. The dielectric and loss tangent properties of the substrate are manipulated using different weight ratios of filler, while PVA keeps the flexibility features. The substrate achieved a dielectric constant (Td), and loss tangent (T) of 6.101 and 0.00899 are measured using DAK 3.5 Kit while the bending performance is investigated for 0°, 30°, 60°, and 90°, respectively. The suggested structure exhibited SNG properties within the frequency range of 4.77–5.65 GHz, 8.75–10.60 GHz, and 16.86–17.66 GHz, respectively, and near-zero index is exhibited within the frequency range of 5.216–6.388 GHz, 9.626–12.617 GHz, and 17.277–18.276 GHz, respectively. The measured response of S21 achieved a bandwidth of 4.88–5.76 GHz, 8.26–10.69 GHz, and 15.87–17.93 GHz with a maximum magnitude of −40.57 dB, −39.41 dB, and −27.63 dB at 5.31 GHz, 9.77 GHz, and 17.123 GHz resonance frequency. The proposed flexible substrate-based MTM structure can be a potential candidate for wireless communications in the S-, C-, and Ku-bands, especially as the SNG material that can increase the antenna bandwidth and gain enhancement.

Topics & Concepts

Materials scienceDissipation factorFerrite (magnet)DielectricComposite materialDielectric lossSubstrate (aquarium)MicrowavePermittivityOptoelectronicsTelecommunicationsComputer scienceGeologyOceanographyAdvanced Antenna and Metasurface TechnologiesElectromagnetic wave absorption materialsMetamaterials and Metasurfaces Applications
Dielectric characterization of Mg–Zn ferrite-based high permittivity flexible substrate for SNG metamaterial | Litcius