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Radial Dielectric Gradient Core–Shell Ce/NiCo@C Composites for Simultaneous Electromagnetic Wave Absorption and Antibacterial Activity via Ce<sup>3+</sup>/Ce<sup>4+</sup> Valence Modulation

Weiran Yan, Jiaxun Hu, Cong Yi, Qiwei Wang, Juan Wang, Wei Zhang, Xiangyun Huang, Yinong Liu, Xin Gao, Huifeng Zeng, Feifei Yang, Guoguo Tan, Xiao Chi

2025Advanced Functional Materials36 citationsDOIOpen Access PDF

Abstract

Abstract The increasing demand for multifunctional materials that combine electromagnetic wave (EMW) absorption and antibacterial properties has driven the development of novel materials capable of meeting these challenges. Here, a core–shell Ce/NiCo@C composite with a radial dielectric gradient structure is presented, designed to enhance EMW absorption and exhibit potent antibacterial activity. The material's unique architecture, which includes a multilayered core–shell configuration and a gradient distribution of Ce 3+ /Ce 4+ valence states, modulates the dielectric constant and promotes electron migration polarization under EMW exposure. This design results in a broad effective absorption bandwidth of 7.12 GHz, with a minimum reflection loss (RL min ) of −67.2 dB at a thickness of 1.94 mm. Additionally, the reversible valence transition between Ce 3+ and Ce 4+ generates reactive oxygen species (ROS), which disrupt microbial cell membranes and inhibit bacterial growth. The Ce/NiCo@C composite demonstrates a sterilization rate exceeding 99% against E. coli and a significant bactericidal effect against S. aureus . This work highlights the potential of integrating valence‐modulated, dielectric gradient materials for advanced EMW absorption and antimicrobial applications, offering a promising approach for future multifunctional materials in diverse EMW technological fields.

Topics & Concepts

Materials scienceValence (chemistry)DielectricComposite materialAbsorption (acoustics)Electromagnetic radiationAnalytical Chemistry (journal)OpticsOptoelectronicsOrganic chemistryPhysicsChemistryElectromagnetic wave absorption materialsMXene and MAX Phase MaterialsCarbon and Quantum Dots Applications