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Broadband and Tunable Microwave Absorption Properties from Large Magnetic Loss in Ni–Zn Ferrite

Subrata Ghosh, Shweta Sharma, Wenjie Li, Amin Nozariasbmarz, Lavanya Raman, Na Liu, Gagan K. Goyal, Yu Zhang, Steven E. Perini, Michael T. Lanagan, Shashank Priya, Bed Poudel

2024Advanced Materials Technologies31 citationsDOIOpen Access PDF

Abstract

Abstract Highly effective electromagnetic (EM) wave absorber materials with strong reflection loss (RL) and a wide absorption bandwidth (EBW) in gigahertz (GHz) frequencies are crucial for advanced wireless applications and portable electronics. Traditional microwave absorbers lack magnetic loss and struggle with impedance matching, while ferrites are stable, exhibit excellent magnetic and dielectric losses, and offer better impedance matching. However, achieving the desired EBW in ferrites remains a challenge, necessitating further composition design. In this study, impedance matching is successfully enhanced and EBW in Ni–Zn ferrite is broadened by successive doping with Mn and Co , without incorporation of any polymer filler. It is found that Ni 0.4 Co 0.1 Zn 0.5 Fe 1.9 Mn 0.1 O 4 material exhibits exceptional EM wave absorption, with a maximum RL of −48.7 dB. It also featured a significant EBW of 10.8 GHz, maintaining a 90% absorption rate (RL < −10 dB) for a thickness of 4.5 mm. These outstanding properties result from substantial magnetic losses and favorable impedance matching. These findings represent a significant step forward in the development of microwave absorber materials, addressing EM wave pollution concerns within GHz frequencies, including the frequency band used in popular 5G technology.

Topics & Concepts

Materials scienceImpedance matchingFerrite (magnet)MicrowaveReflection lossElectrical impedanceAttenuationAbsorption (acoustics)BroadbandBandwidth (computing)DielectricDopingOptoelectronicsOpticsComposite materialElectrical engineeringComposite numberTelecommunicationsComputer sciencePhysicsEngineeringElectromagnetic wave absorption materialsAdvanced Antenna and Metasurface TechnologiesMetamaterials and Metasurfaces Applications
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