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Multifunction lignin-based carbon nanofibers with enhanced electromagnetic wave absorption and surpercapacitive energy storage capabilities

Boyu Du, Hongwei Zhu, Yating Bai, Jingyu Xu, Zheng Pan, Qingyu Wang, Xing Wang, Jinghui Zhou

2022International Journal of Biological Macromolecules32 citationsDOI

Topics & Concepts

Materials scienceSupercapacitorReflection lossCarbonizationAbsorption (acoustics)Energy storageOptoelectronicsCapacitanceCarbon nanofiberPorosityElectromagnetic radiationPower densityCarbon fibersElectromagnetic shieldingNanofiberElectrospinningDopingCurrent densityDielectric lossReflection (computer programming)ConductivityElectromagnetic fieldDielectricNanotechnologyCrystal (programming language)Composite materialHeteroatomMetamaterialPlane waveChemical engineeringPorous mediumPolyacrylonitrileTexture (cosmology)Electrical resistivity and conductivityNear and far fieldNanomaterialsElectromagnetic wave absorption materialsSupercapacitor Materials and FabricationMetamaterials and Metasurfaces Applications
Multifunction lignin-based carbon nanofibers with enhanced electromagnetic wave absorption and surpercapacitive energy storage capabilities | Litcius