Environmental pollution resulting from fossil fuel consumption and the limited lifespan of
batteries has shifted the focus of energy research towards the adoption of green renewable …

Textiles have been concomitant of human civilization for thousands of years. With the
advances in chemistry and materials, integrating textiles with energy harvesters will provide …

Stretchability is an essential property for wearable devices to match varying strains when
interfacing with soft tissues or organs. While piezoelectricity has broad application potentials …

The last decade has witnessed significant advances in energy harvesting technology for the
realization of self-charging electronics and self-powered wireless sensor nodes (WSNs). To …

With the miniaturization of personal wearable electronics, considerable effort has been
expended to develop high‐performance flexible/stretchable energy storage devices for …

Wearable devices are drawing increasing attention in both academia and industry in that
they can offer unprecedented information related to human health in real-time and human …

The rapid growth of the Internet of Things (IoT) has accelerated strong interests in the
development of low-power wireless sensors. Today, wireless sensors are integrated within …

Skin‐inspired wearable devices hold great potentials in the next generation of smart
portable electronics owing to their intriguing applications in healthcare monitoring, soft …

Electronic skin (e‐skin) technology is an exciting frontier to drive the next generation of
wearable electronics owing to its high level of wearability, enabling high accuracy to harvest …

Wearable devices rely on hybrid mechanisms that possess the advantages of establishing a
smarter system for healthcare, sports monitoring, and smart home applications. Socks with …