In the era of Internet-of-things, many things can stay connected; however, biological
systems, including those necessary for human health, remain unable to stay connected to …

Flexible and stretchable transparent electrodes are widely used in smart display, energy,
wearable devices and other fields. Due to the limitations of flexibility and stretchability of …

On‐skin electronics that offer revolutionary capabilities in personalized diagnosis,
therapeutics, and human–machine interfaces require seamless integration between the skin …

By relaying neural signals from the motor cortex to muscles, devices for neurorehabilitation
can enhance the movement of limbs in which nerves have been damaged as a …

Electrospun nanofibers have received considerable attention in the field of soft electronics
owing to their promising advantages and superior properties in flexibility and/or …

Flexible neuromorphic electronics that emulate biological neuronal systems constitute a
promising candidate for next‐generation wearable computing, soft robotics, and …

Stretchable semiconducting polymers have been developed as a key component to enable
skin-like wearable electronics, but their electrical performance must be improved to enable …

Flexible electronics have attracted considerable attention recently given their potential to
revolutionize human lives. High-performance organic crystalline materials (OCMs) are …

Skin, the largest organ in the human body, is sensitive to external stimuli. In recent years, an
increasing number of skin‐inspired electronics, including wearable electronics, implantable …

Electronic second skin is touted as the next interface to expand applications of electronics
for natural and seamless interactions with humans to enable smart health care, the Internet …