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Anionic high-entropy doping engineering for electromagnetic wave absorption

Jiaqi Tao, Yi Yan, Jintang Zhou, Jin Wang, Pïng Chen, Ruiyang Tan, Linling Xu, Hongbao Zhu, Wenhui Zhu, Hexia Huang, Xuewei Tao, Zhengjun Yao

2025Nature Communications126 citationsDOIOpen Access PDF

Abstract

High-entropy doping (HED) engineering surpasses conventional methods for optimizing atomic configurations and electronic structures, opening new paths for developing advanced electromagnetic wave absorbing (EWA) materials. However, the application of anionic HED engineering to tailor EWA mechanisms remains unexplored. Herein, we employ in situ pyrolysis combined with a three-stage solvent thermal doping procedure to systematically induce anion multibody interactions, thereby facilitating the inheritance and accumulation of beneficial EWA properties. The research shows that anions with various electronegativities precisely balance free charges and create a significant localized charge imbalance, triggering the ‘directional cocktail effect’. This effect induces an optimal dielectric loss mechanism and enhances the EWA performance. With only 7.5 wt% filling, the effective absorption bandwidth and minimum reflection loss are 7.05 GHz and −60 dB, respectively. Overall, we report an anionic HED engineering within thin a graphite framework, which may be conceptually extendable for electromagnetic modulation of other two-dimensional van der Waals EWA materials. This study presents an anionic high-entropy doping strategy, elucidating the intricate charges state regulation to drive dipole polarization-dominated dielectric loss and efficient electromagnetic wave absorption in thin graphite framework.

Topics & Concepts

Dopingvan der Waals forceDielectricReflection lossIonMaterials scienceChemical physicsThermalOptoelectronicsNanotechnologyChemistryMoleculePhysicsOrganic chemistryComposite numberMeteorologyComposite materialElectromagnetic wave absorption materialsGraphene research and applicationsMXene and MAX Phase Materials
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