Ti3C2T x nanohybrids: tunable local conductive network and efficient EMI shielding performance for multifunctional materials and devices

Abstract

Ti₃C₂T_xis an important member of the MXenes family. Due to its excellent electrical conductivity, adjustable atomic layer, and modifiable active surface, Ti₃C₂T_xhas attracted great attention in the field of electromagnetic interference (EMI) shielding. This paper introduces the important role of regulating conductive network to improve the EMI shielding performance of materials and summarizes the EMI shielding performance of Ti₃C₂T_xnanohybrids reported in recent years. In addition, Ti₃C₂T_xbased EMI shielding materials towards multifunctional devices are also systematically introduced. After that, the development status of Ti₃C₂T_xnanohybrids in the field of EMI shielding is objectively described, and the main problems and challenges are evaluated. Finally, the prospect of Ti₃C₂T_xnanohybrids for advanced and green EMI shielding materials is forecasted.

Keywords: EMI shielding; Ti3C2T x; conductive network; multifunctional devices; nanohybrids.