Litcius/Paper detail

Regular-wrinkling tunable MXene lattice for electromagnetic interference shielding

Shan Zhang, Juntao Wu, Zhi-Ling Hou, Pengfei Hu, Bo Cai, Chenming Liang, Lu Zhou, Wenhao Liang, Yufeng Xue, Martin C. Koo, Pei-Yan Zhao, Li-Min Liu, Mingjie Liu, Guang-Sheng Wang

2026Nature Communications12 citationsDOIOpen Access PDF

Abstract

Protecting sensitive equipment from electromagnetic radiation damage requires the development of high-performance electromagnetic interference shielding films. As the film thickness is reduced to micro/nano scales, electromagnetic interference shielding capability generally decreases rapidly due to the weaker reflection. As a result, enhanced electromagnetic interference shielding performance in sub-μm thin films remains as an unsolved challenge. Inspired by the naturally wrinkling of fruit skin, we propose a homogeneous strain strategy to achieve self-wrinkling-induced lattice-structured MXene by uniform polymer shrinkage due to dehydration. Uniform wrinkle amplitude can be tuned from 0.8 to 6 μm, which results in additional surface scattering of electromagnetic-waves and electrical conduction paths. The obtained lattice-structured films demonstrate an excellent electromagnetic interference shielding of up to 81.5 dB for a thickness of 17 μm, maintaining high electromagnetic interference shielding performance and stability after enduring various harsh testing conditions. These results demonstrate the potential of wrinkling-induced, surface regular patterns for improving the electromagnetic interference shielding performance of ultra-thin films based on conventional materials.

Topics & Concepts

Electromagnetic shieldingElectromagnetic interferenceMaterials scienceInterference (communication)Electromagnetic radiationElectromagnetic compatibilityOptoelectronicsConducted electromagnetic interferenceElectromagnetic pulseHomogeneousAmplitudeScatteringElectromagnetic environmentEMIShielding effectElectromagnetic fieldComposite materialLattice (music)RadiationOpticsElectromagneticsThermal conductionElectromagnetic wave absorption materialsAdvanced Antenna and Metasurface TechnologiesThermal Radiation and Cooling Technologies
Regular-wrinkling tunable MXene lattice for electromagnetic interference shielding | Litcius