Nickel Iron Layered Double Hydroxide Nanostructures Composited with Carbonyl Iron Powder for Microwave Absorption

Dai, Xingjian; Zhou, Quan; Dong, Lichao; Zhang, Chenzhi; Zhang, Xinfang; Tuo, Ping; Lan, Ruoting; Yang, Pingan; Hou, Yi; Bao, Zhihao; Yi, Shuang; Rao, Jinsong; Zhang, Jintao

doi:10.1021/acsanm.2c05251

ACS Appl. Nano Mater.

2023

DOI: 10.1021/acsanm.2c05251

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Nickel Iron Layered Double Hydroxide Nanostructures Composited with Carbonyl Iron Powder for Microwave Absorption

Xingjian Dai

Quan Zhou

Lichao Dong

et al.

Abstract: The specific nanostructure of the absorber is a key factor in improving the electromagnetic absorption performance. Herein, NiFe layered double hydroxide composited with carbonyl iron powder (LDH/CIP) was fabricated by a one-step hydrothermal synthesis process for the first time. By varying the morphology of the CIP template (spherical or flaky), the nanostructure of in situ grown LDH could be modulated, to optimize the electromagnetic wave absorption performance of LDH. The resultant NiFe/CIP synergistic comp… Show more

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Cited by 19 publications

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3D printed fabrication of ultra‐structured composites of carbonyl iron powder@carbon@carbon black/polylactic acid for efficient microwave absorption

Gao,

Ye,

et al. 2024

Polymer Composites

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Designing an electromagnetic wave absorber that can meet the needs of wide frequency, high efficiency, wide‐angle absorption and strong mechanical bearing capacity is still a challenge. In this paper, a core‐shell structure Carbonyl iron powder (CIP)@Carbon (C)@Carbon black (CB) composite material was prepared by coating and vacuum carbonization process. Using it as a filler, PLA as a matrix to prepare 3D printing composites. The unique structure and material distribution of CIP@C@CB gives the composite a variety of loss mechanisms that greatly improve microwave absorption capacity. Superstructure electromagnetic wave absorbers with integrating broadband microwave absorption and good mechanical bearing performance were designed and prepared by using CIP@C@CB/PLA 3D printing composites. By optimizing the parameters of this superstructure absorber, an EAB of 5.5–18 GHz is realized, and its yield limit reaches 11.5 MPa. In addition, the superstructure absorber also has excellent wide‐angle absorption capacity, with an effective absorption bandwidth (EAB) of 10GHz at 0°–40° transverse radio (TE) and 0–70° transverse magnetic wave (TM). This research offers a straightforward and effective method for crafting broadband wide‐angle absorbers that possess the added advantage of mechanical load‐bearing capacity.Highlights The core‐shell structure was prepared by coating and carbonization processes. The unique structure of CIP@C@CB enhances the interfacial polarization effect. At a thickness of 2 mm, 30% CIP@C@CB/PLA achieves a maximum EAB of 5.0 GHz. The stepped structure achieves 90% effective absorption in the 5.5–18 GHz range.

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3D printed fabrication of ultra‐structured composites of carbonyl iron powder@carbon@carbon black/polylactic acid for efficient microwave absorption

Gao,

Ye,

et al. 2024

Polymer Composites

View full text Add to dashboard Cite

show abstract

Ni–Fe alloy soft magnetic protective coating of new energy vehicles and the internal electromagnetic radiation characteristics

Lei,

2024

J Mater Sci: Mater Electron

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Microwave Absorption Properties of Flaky Carbonyl Iron @ Fe3O4 Produced by Plasma-Assisted Ball Milling

Liu,

et al. 2024

J. of Materi Eng and Perform

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Nickel Iron Layered Double Hydroxide Nanostructures Composited with Carbonyl Iron Powder for Microwave Absorption

Cited by 19 publications

References 43 publications

3D printed fabrication of ultra‐structured composites of carbonyl iron powder@carbon@carbon black/polylactic acid for efficient microwave absorption

3D printed fabrication of ultra‐structured composites of carbonyl iron powder@carbon@carbon black/polylactic acid for efficient microwave absorption

Ni–Fe alloy soft magnetic protective coating of new energy vehicles and the internal electromagnetic radiation characteristics

Microwave Absorption Properties of Flaky Carbonyl Iron @ Fe3O4 Produced by Plasma-Assisted Ball Milling

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