Scalable-Manufactured Metamaterials for Simultaneous Visible Transmission, Infrared Reflection, and Microwave Absorption

Li, Dong; Chen, Qixiang; Huang, Jinhua; Xu, Hua; Lu, Yuehui; Song, Weijie

doi:10.1021/acsami.2c03346

Cited by 13 publications

(6 citation statements)

References 45 publications

(74 reference statements)

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“…It is worth noting that some advanced metamaterials have become promising candidate materials for engineering infrared emissivity and thermal radiation, by which means compatible infrared stealth can be achieved. [57][58][59][60] 4 Bionic infrared stealth As mentioned above, current detection methods are so various that the design of RAMs for microwaves fails to meet the requirements of multispectral stealth. The most common multispectral stealth requirement is microwave absorption compatible with infrared stealth.…”

Section: Bionic Metamaterials System Designmentioning

confidence: 99%

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Bionic structures for optimizing the design of stealth materials

Xu¹,

Li²,

Li³

et al. 2023

Phys. Chem. Chem. Phys.

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Section: Bionic Metamaterials System Designmentioning

confidence: 99%

Section: Structure Design and Mechanism Research Of Bionic Materialsmentioning

confidence: 99%

Bionic structures for optimizing the design of stealth materials

Xu¹,

Li²,

Li³

et al. 2023

Phys. Chem. Chem. Phys.

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“…ITO films exhibit transparency in the visible range, and their effective relative permittivity in the IR band can be accurately described using the Drude model. [37,[38][39][40]…”

Section: Design Of Ral and Irslmentioning

confidence: 99%

Visible Transparent Wideband Microwave Meta‐Absorber with Designable Digital Infrared Camouflage

Cui,

Wang,

Sun

et al. 2023

Advanced Optical Materials

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Stealth performance plays an increasingly important role in the evaluation of aircraft performance, while achieving excellent stealth performance in multiple frequency bands simultaneously remains a crucial challenge. Herein, a visible transparent wideband microwave absorber with infrared camouflage function is theoretically presented and experimentally demonstrated. The sample is composed of two radar absorption layers (RALs) and an infrared shielding layer (IRSL). In addition, the magnetic resonance model and the ohmic loss model are employed to strengthen the absorption of the designed RALs >90% in a broadband frequency range of 7–23 GHz with a relative bandwidth of 106.7%, and an average visible transmittance of ≈60%. Furthermore, IRSL is achieved by a designable digital frequency selective surface (FSS), which promotes a compatible design between infrared camouflaged emissivity and microwave absorption. These peculiar properties not only verify the feasibility of the proposed strategy for achieving suitable artificially designed IR digital camouflage patterns to meet various thermal camouflage environments, but also have promising application prospects in multispectral stealth. The additional visible light transparent feature makes it useful in compatible camouflage‐stealth facilities when requiring observing and operating in optical windows.

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“…13,14 However, due to the great difficulty in structural design, they are relatively new concepts and still a long way from being applied. 15 Due to the strong interaction between the chains, the solubility of the conductive polymer is quite poor, which leads to its disastrous processability. 16 Therefore, doped oxide semiconductors are still the most mainstream materials in the field of compatible stealth research.…”

Section: Introductionmentioning

confidence: 99%