Evolution of Naturally Dried MXene‐Based Composite Aerogels with Flash Joule Annealing for Large‐Scale Production of Highly Sensitive Customized Sensors

MXene aerogels, known for good electrical properties, offer immense potential for the development of high-sensitivity pressure sensors. However, the intrinsic challenges stemming from the poor self-assembly capability and high hydrophilicity of MXene impedes the natural drying process of MXene-based hydrogels, thereby constraining their application on a large-sacle in sensor technology. Herein, we propose a graphene-assisted approach aimed at modulating the hydrophobicity and enhancing framework strength of MXene through a well-designed prefreezing technique incorporating three-dimensional (3D) spherical macro-porous structures. This synergistic strategy enables the fabrication of naturally dried MXene aerogels across various size scales. Moreover, the integration of 3D spherical macro-porous structures improves elasticity and electrical responsiveness of aerogels. Consequently, the aerogel sensor exhibits great performances, including high sensitivity (1250 KPa