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Enhanced polarization <i>via</i> Joule heating in wood-derived carbon materials for absorption-dominated EMI shielding

Haoyang Feng, Jianming Hong, Jiaxiang Zhang, Pingping He, Honghai Zhou, Sai Wang, Hongna Xing, Ruosong Li

2023Materials Horizons38 citationsDOI

Abstract

chemical vapor deposition, producing Co@CNTs/CW foams. The CNTs, densely grown on the CW surface, tightly encapsulated the Co nanoparticles within them. By manipulating the Co content, the defect density and CNT length varied within the Co@CNTs. Through first-principles calculations, these variations substantially influenced the work function, charge density, and dipole moment of the Co@CNTs. Thus, defect-induced and interfacial polarizations were improved, inducing a transformation of the shielding mechanism from reflection to absorption. Regarding the Co@CNTs/CW foams, while high conductivity was essential for achieving satisfactory shielding performance, the enhanced polarization loss dominated the contribution of absorption to the overall shielding effectiveness. Taking advantage of the enhanced polarizations, the Co@CNTs/CW foams exhibited an impressive shielding effectiveness of 42.0 dB, along with an absorptivity of 0.64, which were instrumental in effectively minimizing secondary reflections. Remarkably, these as-prepared foams possessed outstanding hydrophobicity and Joule heating features with a water contact angle of 138° and a saturation temperature of 85.5 °C (2.5 V). Through the stimulation of voltage-driven Joule heating, the absorptivity of Co@CNTs/CW foams can be significantly enhanced to a range of 0.61 to 0.73, irrespective of the Co content. This research would provide a new avenue for designing carbon materials with an absorption-dominated mechanism integrated into EMI shielding performance.

Topics & Concepts

EMIElectromagnetic shieldingMaterials scienceJoule heatingPolarization (electrochemistry)Absorption (acoustics)Carbon blackElectromagnetic interferenceComposite materialCarbon fibersOptoelectronicsChemistryComposite numberElectrical engineeringPhysical chemistryNatural rubberEngineeringElectromagnetic wave absorption materialsAdvanced Antenna and Metasurface Technologies
Enhanced polarization <i>via</i> Joule heating in wood-derived carbon materials for absorption-dominated EMI shielding | Litcius