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Layered Aluminum for Electromagnetic Wave Absorber with Near-Zero Reflection

Taehoon Kim, Hyung Wan, Kyu-Jong Choi, Sungsoon Kim, Minwoo Lee, Tae Young Kim, Byung-Kyu Yu, Jinwoo Cheon, Byung‐Wook Min, Wooyoung Shim

2021Nano Letters41 citationsDOI

Abstract

Ideal electromagnetic (EM) wave absorbers can absorb all incident EM waves, regardless of the incident direction, polarization, and frequency. Absorptance and reflectance are intrinsic material properties strongly correlated with electrical conductivity; hence, achieving perfect absorptance with zero reflectance is challenging. Herein, we present a design strategy for preparing a nearly ideal EM absorber based on a layered metal that maximizes absorption by utilizing multiple internal reflections and minimizes reflection using a monotonic gradient of intrinsic impedance. This approach was experimentally verified using aluminum nanoflakes prepared via topochemical etching of lithium from Li9Al4, and the impedance-graded structure was obtained through the size-based sorting behavior of aluminum nanoflakes sinking in dispersion. Unlike in traditional shielding materials, strong absorption (26.76 dB) and negligible reflectivity (0.04 dB) with a ratio of >103 can be achieved in a 120 μm thick film. Overall, our findings exhibit potential for developing a novel class of antireflective shielding materials.

Topics & Concepts

AbsorptanceMaterials scienceElectromagnetic shieldingElectromagnetic radiationReflection (computer programming)Absorption (acoustics)OpticsAluminiumPolarization (electrochemistry)Reflection coefficientReflection lossElectrical conductorOptoelectronicsElectrical impedanceReflectivityComposite materialComposite numberChemistryPhysicsProgramming languagePhysical chemistryQuantum mechanicsComputer scienceElectromagnetic wave absorption materialsAdvanced Antenna and Metasurface TechnologiesMetamaterials and Metasurfaces Applications
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