The rapid growth of the electronics industry and proliferation of electronic materials and
telecommunications technologies has led to the release of a massive amount of untreated …

Abstract Electronic skin (e‐skin), new generation of flexible wearable electronic devices, has
characteristics including flexibility, thinness, biocompatibility with broad application …

Ionic conductive hydrogels (ICHs) integrate the conductive performance and soft nature of
tissue‐like materials to imitate the features of human skin with mechanical and sensory …

Electronic skin can detect minute electrical potential changes in the human skin and
represent the body's state, which is critical for medical diagnostics and human–computer …

Self-powered flexible devices with skin-like multiple sensing ability have attracted great
attentions due to their broad applications in the Internet of Things (IoT). Various methods …

Wearable sensors have recently attracted extensive interest not only in the field of
healthcare monitoring but also for convenient and intelligent human–machine interactions …

The development of flexible thermistor epidermal electronics (FTEE) to satisfy high
temperature resolution without strain induced signal distortion is of great significance but still …

As a stretchable seamless device, electronic skin (E-skin) has drawn enormous interest due
to its skin-like sensing capability. Besides the basic perception of force and temperature …

Flexible electronic skins (e‐skins) play a very important role in the development of human–
machine interaction and wearable devices. To fully mimic the functions of human skin, e …

With the aging of society and the increase in people's concern for personal health, long-term
physiological signal monitoring in daily life is in demand. In recent years, electronic skin (e …