The rapid development of flexible and wearable electronics favors low‐cost, solution‐
processing, and high‐throughput techniques for fabricating metal contacts, interconnects …

The requirements for comfort, multifunctionality, and aesthetic value of wearable electronics
have increased owing to the development of smart wearables. Traditional wearable …

Textile-based electronic devices have aroused considerable interests due to their excellent
flexible, wearable and breathable features towards the next-generation intelligent wearable …

Intelligent human–machine interfaces (HMIs) integrated wearable electronics are essential
to promote the Internet of Things (IoT). Herein, a curcumin‐assisted electroless deposition …

The rapid growth in wearable technology has recently stimulated the development of
conductive textiles for broad application purposes, ie, wearable electronics, heat generators …

A fatal weakness in flexible electronics is the mechanical fracture that occurs during
repetitive fatigue deformation; thus, controlling the crack development of the conductive …

Flexibility plays a vital role in wearable electronics. Repeated bending often leads to the
dramatic decrease of conductivity because of the numerous microcracks formed in the metal …

Textile-based pressure sensors have garnered extensive attentions owing to their potentials
in health monitoring, human–machine interactions, wearable human–machine interfaces …

Textile-based wearable electronics, integrating the functions of electronics into the daily
textiles, offers a comfortable interaction between humans and electronic devices. Production …

Here a bioinspired facile and versatile method is reported for fabricating highly durable,
washable, and electrically conductive fibers and yarns. Self‐polymerized dopamine plays as …