Litcius/Paper detail

Facile fabrication of biomass chitosan-derived magnetic carbon aerogels as multifunctional and high-efficiency electromagnetic wave absorption materials

Shijie Wang, Xue Zhang, Yunxiang Tang, Shuyan Hao, Sinan Zheng, Jing Qiao, Zhou Wang, Lili Wu, Jiurong Liu, Fenglong Wang

2023Carbon107 citationsDOIOpen Access PDF

Abstract

Biomass chitosan-derived porous carbon-based materials take the advantage of light weight, adjustable intrinsic conductivity, and environmental friendliness, attracting more attention in the field of electromagnetic compatibility. However, exploring a facile fabrication method to achieve rational structure design and electrical-magnetic coupling for electromagnetic absorption performance enhancement still remains challenging. Here, a unique honeycomb-like porous cobalt/carbon aerogel is fabricated through the directional freezing-drying and carbonization process, and abundant and even-distributed cobalt particles in-situ grow on the carbon skeletons. The aerogel exhibits an impressive electromagnetic wave absorption performance of a −75.8-dB absorption intensity and a −256.9-dB mm −1 specific reflection loss at a low filling content (10%), as well as an 8.53-GHz effective absorption bandwidth. Besides, the aerogel also demonstrates classy radar stealth and thermal insulation performance. The eco-friendly, easily fabricated, and high-performance cobalt/carbon aerogel suggests broad application prospects for electromagnetic compatibility and protection, thermal management, and multifarious electron devices.

Topics & Concepts

FabricationMaterials scienceChitosanAbsorption (acoustics)Carbon fibersElectromagnetic radiationChemical engineeringBiomass (ecology)NanotechnologyComposite materialOpticsComposite numberGeologyEngineeringMedicineOceanographyPathologyAlternative medicinePhysicsElectromagnetic wave absorption materialsAdvanced Sensor and Energy Harvesting MaterialsAdvanced Antenna and Metasurface Technologies