The wettability and adhesion of biological surfaces often depend on their periodically
arranged hybrid micro–nano array structures. Various fabrication processes are designed to …

Flexible pressure sensors (FPSs) have been widely studied in the fields of wearable medical
monitoring and human–machine interaction due to their high flexibility, light weight …

Flexible pressure sensors are indispensable components in various applications such as
intelligent robots and wearable devices, whereas developing flexible pressure sensors with …

Functional textiles with superhydrophobicity and high adhesion to water, called
parahydrophobic, are attracting increasing attention from industry and academia. The …

Flexible pressure sensors with high-performance show broad application prospects in
health monitoring, wearable electronic devices, intelligent robot sensing, and other fields …

Flexible electronics have demonstrated various strategies to enhance the sensory ability for
tactile perception and wearable physiological monitoring. Fibrous microstructures have …

Accompanying the rapid growth of wearable electronics, flexible pressure sensors have
received great interest due to their promising application in health monitoring, human …

In modern society, technology associated with smart sensors made from flexible materials is
rapidly evolving. As a core component in the field of wearable smart devices (or 'smart …

The tactile pressure sensor is of great significance in flexible electronics, but sensitivity
customization over the required working range with high linearity still remains a critical …

MXenes, as a family of two-dimensional (2D) lamellar material of transition metal carbides,
nitrides and carbon/nitrides, is an ideal choice for flexible sensing materials because of its …