Litcius/Paper detail

A controllable and fast carbonization strategy under air conditions and its application in electromagnetic interference (EMI) shielding

Yan Zhang, Jiayu Lu, Yu Jin, Wei Wang, Shimin Zhai, Yihao Yu, Dongming Qi

2025Composites Part A Applied Science and Manufacturing18 citationsDOIOpen Access PDF

Abstract

• Proposed a novel fast carbonization method at air atmosphere. • The cotton fabric carbonized for 15 min at 900 °C shows a high EMI SE of 26.33 dB. • The carbonized fabric possesses photo-thermal conversion ability and fire resistance. Carbonized cotton fabric possesses lightweight softness, stable chemical structure and can be used as wearable electronic skin. However, conventional carbonization method relies on high temperature, oxygen-free or inert gas atmosphere with long time consumption. In this study, a hybrid intumescent flame retardant (IFR) coating was introduced on the surface of cotton fabric. When they were placed directly into the heated muffle furnace at air atmosphere, the IFR coating would quickly react with the cotton fiber to form char residue and release non-inflammable gases, providing an inert atmosphere microenvironment for the pyrolysis and carbonization of cotton fabric substrate. The influence factors of temperature and carbonization time were studied comprehensively. Especially, carbonizing for only 15 min at 900 °C shows a value of 26.33 dB. Besides, such fabrics perform the ability for photo-thermal conversion and fire resistance performance. This simple and feasible carbonization strategy holds great promise for large-scale production of flexible conductive fabrics.

Topics & Concepts

EMIElectromagnetic interferenceMaterials scienceElectromagnetic shieldingCarbonizationComposite materialInterference (communication)TelecommunicationsScanning electron microscopeComputer scienceChannel (broadcasting)Electromagnetic wave absorption materialsFiber-reinforced polymer compositesElectromagnetic Fields and Biological Effects