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Impedance-matchable 3D MXene sponge/NiFe@NC heterostructure with tunable pores for efficient electromagnetic wave absorption and thermal resistance

Shuwen Tang, Shen-Ao Cheng, Chi Yu, Zhanming Wu, Yunan Tan, Xiaojun Zeng

2025Science China Materials8 citationsDOI

Topics & Concepts

Materials scienceHeterojunctionAbsorption (acoustics)Reflection lossReflection (computer programming)OptoelectronicsPorosityThermal stabilityImpedance matchingAttenuationThermalElectromagnetic radiationComposite materialThermal conductionThermal resistanceThermal conductivityElectrical impedancePorous mediumSheet resistanceNanotechnologyElectromagneticsPolyurethaneScatteringTerahertz radiationElectrical conductorPolydimethylsiloxaneMetamaterialMicrowaveCharacteristic impedanceElectromagnetic wave absorption materialsMXene and MAX Phase MaterialsMetamaterials and Metasurfaces Applications
Impedance-matchable 3D MXene sponge/NiFe@NC heterostructure with tunable pores for efficient electromagnetic wave absorption and thermal resistance | Litcius