Abstract Three-dimensionally (3D) printed flexible piezoresistive composite sensors have
provided valuable solutions for the personalized therapeutic development due to their …

Despite the tremendous efforts dedicated to developing various wearable piezoresistive
sensors with sufficient stretchability and high sensitivity, challenges remain pertaining to …

The development of strain sensors with high sensitivity and stretchability is essential for
health monitoring, electronic skin, wearable devices, and human-computer interactions …

Accurate monitoring of human motion holds enormous promise for broad applications, such
as athlete training, rehabilitation, health monitoring, and gaming. Wearable sensors are …

Polymer based 3D printings are generally generated from the melt fluids or gels instead of
polymer solution. Inspired by continuous wet-spinning of polymer fiber, we explored a new …

Abstract 3D printing of conductive elastomers is a promising route to personalized health
monitoring applications due to its flexibility and biocompatibility. Here, a one‐part, highly …

Highly flexible, deformable, and ultralightweight structures are required for advanced
sensing applications, such as wearable electronics and soft robotics. This study …

The manufacturing of flexible strain sensors for wearable electronics usually requires
different conductive materials for the sensing part and the connection part. This increases …

The additive manufacturing technology of continuous carbon fiber reinforced composites
(CCFRCs) based on fused filament fabrication offers new opportunities for the preparation …

The revolutionary and pioneering advancements of flexible electronics provide the
boundless potential to become one of the leading trends in the exploitation of wearable …