Multifunctional Hydrophobic MXene-Coated Cotton Fabrics for Electro/Photothermal Conversion, Electromagnetic Interference Shielding, and Pressure Sensing

Abstract: MXene is a two-dimensional material for preparing wearable electronic textiles. However, maintaining the conductivity, stability, and comfort of MXene-based functional textiles in humid air or water is a key challenge. In this work, the active adsorption sites on cotton fabric surfaces were increased by low-temperature micro-dissolution. It also enhances the bonding ability of MXene with cotton fabrics by using polydopamine (PDA) as an interface agent. Finally, 1H,1H,2H,2H-perfluorooctyltriethoxysilane (PFOTES… Show more

“…[35] Xianhong Zheng et al [36] utilized a layerby-layer assembly strategy in order to construct multilayer sandwich hollow magnetic Fe3O4 nanorods (HFO)/MXene composites. The fabricated Fe3O4/MXene composite fabrics (HFM) have low sheet resistance, good EMI shielding performance (EMI shielding effect of 33.28 dB); Tianyi Zhang et al [37] used lowtemperature microdissolution method to add MXene material on cotton fabric, and enhanced the bonding ability between MXene and cotton fabric by using polydopamine, and this composite conductive fabric has excellent electrical/photothermal performance and excellent EMI shielding performance, and the EMI shielding effect is 32 dB within the wavelength range of 8-12 GHz. This composite conductive fabric has excellent electrothermal/photo-thermal properties and outstanding EMI shielding with 32 dB in the 8-12 GHz range; Xiangyu Li et al [38] prepared flexible and durable functional fabrics with high electromagnetic shielding performances based on MXene, and Ag-NPs@MXene with high conductivity were prepared by in-situ reduction of AgNO3 onto MXene.…”

Flexible Wearable Ti₃C₂T_x Composite Carbon Fabric Textile with Infrared Stealth and Electromagnetic Interference Shielding Effect

“…[35] Xianhong Zheng et al [36] utilized a layerby-layer assembly strategy in order to construct multilayer sandwich hollow magnetic Fe3O4 nanorods (HFO)/MXene composites. The fabricated Fe3O4/MXene composite fabrics (HFM) have low sheet resistance, good EMI shielding performance (EMI shielding effect of 33.28 dB); Tianyi Zhang et al [37] used lowtemperature microdissolution method to add MXene material on cotton fabric, and enhanced the bonding ability between MXene and cotton fabric by using polydopamine, and this composite conductive fabric has excellent electrical/photothermal performance and excellent EMI shielding performance, and the EMI shielding effect is 32 dB within the wavelength range of 8-12 GHz. This composite conductive fabric has excellent electrothermal/photo-thermal properties and outstanding EMI shielding with 32 dB in the 8-12 GHz range; Xiangyu Li et al [38] prepared flexible and durable functional fabrics with high electromagnetic shielding performances based on MXene, and Ag-NPs@MXene with high conductivity were prepared by in-situ reduction of AgNO3 onto MXene.…”

Flexible Wearable Ti₃C₂T_x Composite Carbon Fabric Textile with Infrared Stealth and Electromagnetic Interference Shielding Effect

Preparation of a wearable K-PAN@CuS composite fabric with excellent photothermal/electrothermal properties

A multi-functional flexible piezoresistive sensor based on sericin-functionalized CNTs decorated carbon foams for wearable thermal-therapy devices