According to ISO/TR 23383, smart textiles reversibly interact with their environment and
respond or adapt to changes in the environment. The present review and bibliometric …

In recent years, wearable sensor devices with exceptional portability and the ability to
continuously monitor physiological signals in real time have played increasingly prominent …

Fiber-based sensor based on the core-sheath structure has drawn increasing attention in
the strain sensing and self-powered fields because of its various advantages (eg …

The collection and storage of renewable, sustainable and clean energy including wind,
solar, and tidal energy has attracted considerable attention because of its promising …

Textile-based energy systems, which can provide sustainable power in both dry and wet
conditions, are ideal for wearable devices, especially electronic textiles used for motion …

The high-performance fabric-based piezoelectric nanogenerators (PENGs) is the ideal
choice for the next generation of wearable electronics. However, large-scale fabrication of …

Although the coating of conductive graphene onto commercial yarns is promising for
scalable production, the resulting conductive yarns are susceptible to the coating …

Ionic polymer sensors (IPSs) have broad application prospects in health monitoring,
environmental perception, and human–computer interaction. The performance of IPSs with …

Wearable electronics with multi‐functionalities are widely utilized in various domains,
including everyday living, healthcare, military training, and sports. Advances in flexible …

This review article presents a comprehensive overview of critical factors affecting the stability
and reliability of wearable triboelectric nanogenerators (WTENGs). With the escalating …