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Enhanced microwave absorption features of Ba <sub>3</sub> Co <sub>2</sub> Fe <sub>24</sub> O <sub>41</sub> hexaferrite by high lanthanium doping concentration

N. Tran, Ruey‐Bin Yang, Woo Hyun Jeong, Do Hung Manh, The‐Long Phan, Bo Wha Lee

2022Journal of the American Ceramic Society29 citationsDOI

Abstract

Abstract Controlling material structure and its electromagnetic properties, including complex permittivity and permeability, could enhance the microwave absorption performance of the material in terms of reflection loss and effective absorption bandwidth. In this study, La‐substituted barium hexaferrite, Ba 3− x La x Co 2 Fe 24 O 41 ( x = 0, 0.1, 0.3, and 0.5) compounds were successfully prepared using the solid‐state reaction method, and their corresponding microstructures, static magnetic properties, and electromagnetic features in 2–18 GHz were investigated. The doping of La content increased saturation magnetization, coercivity, and remnant magnetization. The Ba 2.7 La 0.3 Co 2 Fe 24 O 41 epoxied sample with 3.5 mm thickness possessed an excellent microwave absorption of −47.3 dB at 3.52 GHz, and its corresponding effective absorption bandwidths were 3.75 GHz (2.25–6 GHz) and 0.57 GHz (17.43–18 GHz). It is shown that doping with various La concentrations on Ba 3 Co 2 Fe 24 O 41 can be used as an effective technique to tune the performance of microwave absorbers based on barium hexaferrite.

Topics & Concepts

Reflection lossMaterials scienceMicrowaveCoercivityAnalytical Chemistry (journal)PermittivityDopingAbsorption (acoustics)MicrostructureMagnetizationBariumNuclear magnetic resonanceDielectricOptoelectronicsChemistryMagnetic fieldComposite numberCondensed matter physicsComposite materialMetallurgyPhysicsChromatographyQuantum mechanicsElectromagnetic wave absorption materialsMagnetic Properties and Synthesis of FerritesAdvanced Antenna and Metasurface Technologies
Enhanced microwave absorption features of Ba <sub>3</sub> Co <sub>2</sub> Fe <sub>24</sub> O <sub>41</sub> hexaferrite by high lanthanium doping concentration | Litcius