Recent Progress in Hexagonal Ferrites Based Composites for Microwave Absorption

Mohammed, Ibrahim; Mohammed, J.; Srivastava, A. K.

doi:10.1002/crat.202200200

Cited by 17 publications

(6 citation statements)

References 402 publications

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“…To address this issue, researchers have explored various shielding mechanisms, including developing materials that can absorb microwaves. [1][2][3] These materials include graphene-based composites, [4][5][6] ferrite-based composites, [7][8][9] and conductive polymer-based composites. [10,11] The objective of this development is to reduce the reflection loss (RL) and enhance the electromagnetic bandwidth (EB) absorption of a material.…”

Section: Introductionmentioning

confidence: 99%

A Facile Route Preparation of Fe₃O₄/MWCNT/ZnO/PANI Nanocomposite and its Characterization for Enhanced Microwave Absorption Properties

Prima Hardianto,

Nur Iman,

Hidayat

et al. 2024

ChemistrySelect

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With increasing concerns regarding the potential health risks associated with microwave‐based technology, researchers have been actively investigating materials with impressive microwave absorption properties. In this study, a synthesis and investigation of a nanocomposite, named Fe3O4/MWCNT/ZnO/PANI, consisting of magnetite (Fe3O4), multi‐walled carbon nanotube (MWCNT), zinc oxide (ZnO), and polyaniline (PANI) as a microwave‐absorbing material, was carried out for the first time. The nanocomposite was prepared through a simple physical mixing approach and demonstrated tunable microwave absorption, making it highly suitable for shielding applications. Structural analysis techniques, including X‐ray diffraction (XRD), Fourier‐transform infrared spectroscopy (FTIR), and scanning electron microscopy with energy‐dispersive X‐ray analysis (SEM‐EDAX), confirmed the presence of all components in the nanocomposite. Moreover, ultraviolet‐visible spectroscopy (UV‐Vis) further verified the formation of nanocomposite components and revealed an adjustable optical bandgap ranging from 2.86 to 3.34 eV. Impressively, the nanocomposite exhibited promising microwave absorption properties, with a minimum reflection loss (RL) of −32.66 dB for the nanocomposite containing 37.50 % PANI by weight, and a maximum electromagnetic bandwidth (EB) of 2.26 GHz for the nanocomposite containing 44.44 % PANI by weight, indicating its potential as an effective shielding material. Furthermore, a modified theory combining transmission line, Landau‐Lifshits, and Drude‐Lorentz theories was introduced to extract complex relative permittivity and permeability, providing insights into the role of polyaniline in enhancing the microwave absorption properties of the nanocomposite as measured by reflection loss (RL).

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Section: Introductionmentioning

confidence: 99%

A Facile Route Preparation of Fe₃O₄/MWCNT/ZnO/PANI Nanocomposite and its Characterization for Enhanced Microwave Absorption Properties

Prima Hardianto,

Nur Iman,

Hidayat

et al. 2024

ChemistrySelect

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“…Consequently, the utilization of soft ferrites becomes highly beneficial for guarding against the detrimental effects of EM waves [16]. Ferrite has the ability to absorb radio frequency (RF) due to variations in magnetization and domains caused by different sizes of chemical substitution [17]. This characteristic allows ferrite to be utilized in a wide range of compositions for this purpose.…”

Section: Introductionmentioning

confidence: 99%

Characterization of wheat husk-derived holey carbon/(RGO) _x /CoFe₂O₄/PVA nanocomposites: insights into structural, optical, magnetic, and dielectric properties

Gholipur

2024

Funct. Compos. Struct.

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In this particular study, an uncomplicated method involving chemical co-precipitation was employed to create nanocomposites known as wheat husk-derived holey carbon/reduced graphene oxide/cobalt ferrite/polyvinyl alcohol (WHHC/(RGO)x/CF/PVA). The utilization of biomass materials is a noteworthy aspect that has caught the attention of researchers in this field. It is worth mentioning that the characteristics related to both magnetism and dielectricity in the flexible WHHC/(RGO)x/CF/PVA nanocomposites can be controlled by adjusting the amount of RGO present in the composition. To explore the composite's absorption properties, the influence of RGO content was investigated, and it was found that there is a direct correlation between higher RGO content and increased absorption. The WHHC/(RGO)x/CF/PVA structure exhibits an enhanced impedance matching due to the strong interfacial interaction between RGO and cobalt ferrite nanoparticles. This porous composition possesses an optimal structure for capturing and collecting light effectively. Moreover, the WHHC/(RGO)x/CF/PVA nanocomposites have exhibited great potential in manufacturing flexible electronic devices such as light-dependent resistors (LDRs), when employed as an electronic material. Their lightweight characteristics and flexibility are key contributors to the success achieved in this aspect. However, it is important to note that their overall shape tends to resemble that of traditional absorber equipment commonly used in the field.

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“…Traditional EM absorbers are magnetic materials such as ferrite [22] and dielectric materials like carbons [23]. They fail to achieve high EM dissipation or impedance matching Coatings 2024, 14, 607 2 of 23 and easily lose EM absorption properties due to aging [24].…”

Section: Introductionmentioning

confidence: 99%

Recent Progress in Electromagnetic Wave Absorption Coatings: From Design Principles to Applications

Jin,

Yu,

Wang

et al. 2024

Coatings

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It is essential to develop electromagnetic (EM) wave-absorbing materials with exceptional versatility to address a variety of applications, including anti-radar stealth, EM radiation protection, and EM interference shielding. EM wave absorption coatings, mainly composed of matrices and EM absorbers, have excellent practical performance. Researchers have been developing advanced EM absorption coating with properties like thin, light, broadband, and anti-aging. This review summarizes the recent progress in EM absorption coatings, including the design principles, feedstocks, manufacturing techniques, performance evaluation methods, and applications. Finally, the current challenges and future research directions are discussed.

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Recent Progress in Hexagonal Ferrites Based Composites for Microwave Absorption

Cited by 17 publications

References 402 publications

A Facile Route Preparation of Fe₃O₄/MWCNT/ZnO/PANI Nanocomposite and its Characterization for Enhanced Microwave Absorption Properties

A Facile Route Preparation of Fe₃O₄/MWCNT/ZnO/PANI Nanocomposite and its Characterization for Enhanced Microwave Absorption Properties

Characterization of wheat husk-derived holey carbon/(RGO) _x /CoFe₂O₄/PVA nanocomposites: insights into structural, optical, magnetic, and dielectric properties

Recent Progress in Electromagnetic Wave Absorption Coatings: From Design Principles to Applications

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Recent Progress in Hexagonal Ferrites Based Composites for Microwave Absorption

Cited by 17 publications

References 402 publications

A Facile Route Preparation of Fe3O4/MWCNT/ZnO/PANI Nanocomposite and its Characterization for Enhanced Microwave Absorption Properties

A Facile Route Preparation of Fe3O4/MWCNT/ZnO/PANI Nanocomposite and its Characterization for Enhanced Microwave Absorption Properties

Characterization of wheat husk-derived holey carbon/(RGO) x /CoFe2O4/PVA nanocomposites: insights into structural, optical, magnetic, and dielectric properties

Recent Progress in Electromagnetic Wave Absorption Coatings: From Design Principles to Applications

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A Facile Route Preparation of Fe₃O₄/MWCNT/ZnO/PANI Nanocomposite and its Characterization for Enhanced Microwave Absorption Properties

A Facile Route Preparation of Fe₃O₄/MWCNT/ZnO/PANI Nanocomposite and its Characterization for Enhanced Microwave Absorption Properties

Characterization of wheat husk-derived holey carbon/(RGO) _x /CoFe₂O₄/PVA nanocomposites: insights into structural, optical, magnetic, and dielectric properties