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Electrochemically‐Switched Microwave Response of MXene in Organic Electrolyte

Wenkun Fei, Jianmin Li, Linfeng Ma, Tongqing Zhou, Xianjun Zhu, Xingyu He, Shujuan Liu, Jing Bian, Qiang Zhao

2024Advanced Materials24 citationsDOIOpen Access PDF

Abstract

Abstract The increasingly complex electromagnetic (EM) environment necessitates advanced electrically controllable electromagnetic interference (EMI) shielding materials that can adapt to varying EM conditions. This study develops a flexible electrochemically tunable EMI shielding device based on ultrathin Ti 3 C 2 T x MXene films, exhibiting reversible shielding effectiveness (SE) modulation from 18.9 to 26.2 dB in X band at 0.1 and −1.5 V. Unlike the previously reported mechanism relying on interlayer spacing adjustments, the work leverages transformations of charging state and surface chemistry for tunability during the electrochemical process. The Ti 3 C 2 T x flake size is also evidenced to play a crucial role, with smaller flakes offering higher absorption modulation despite lower SE modulation, enabling the device with high designability. When integrated with Salisbury screen structure, the device achieves adjustable absorption from 93.560% at 0.1 V to 99.996% at −1 V, showing a tunable reflection suppression ratio up to 32 dB with an effective bandwidth of 4.2 GHz. Additionally, incorporating resonant cavity structure enables absorption‐dominated (over 90%) microwave‐responsive switching at 0.1 and −1.5 V. This work highlights significant potential of adaptive EMI shielding materials for applications in smart electronic protection, EM switch, and radar camouflage.

Topics & Concepts

Materials scienceElectromagnetic shieldingMicrowaveEMIOptoelectronicsAbsorption (acoustics)Reflection lossElectrolyteElectromagnetic interferenceModulation (music)Terahertz radiationElectrochemistryNanotechnologyElectrodeTelecommunicationsComposite materialComposite numberAcousticsComputer sciencePhysicsPhysical chemistryChemistryElectromagnetic wave absorption materialsAdvanced Antenna and Metasurface TechnologiesMXene and MAX Phase Materials
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