Recent advances in skin-interfaced wearable sweat sensors enable the noninvasive, real-
time monitoring of biochemical signals associated with health and wellness. These …

Continuous monitoring of the parameters that define physiological health status is an
essential aspect of modern care for critically ill patients, particularly for vulnerable …

Commercial batteries have been largely applied in mobile electronics, electric vehicles, and
scalable energy storage systems. However, thermal runaway of batteries still obstructs the …

Many recently developed classes of wireless, skin‐interfaced bioelectronic devices rely on
conventional thermoset silicone elastomer materials, such as poly (dimethylsiloxane)(PDMS …

Wireless, skin‐interfaced electronic and microfluidic devices have the potential to replace
wired, bulky, and cumbersome technologies for personal and clinical health monitoring …

Ionogels have enabled flexible electronic devices for wide-ranging innovative applications
in wearable electronics, soft robotics, and intelligent systems. Ionogels for flexible …

Though the history of self‐healing materials stretches far back to the mid‐20th century, it is
only in recent years where such unique classes of materials have begun to find use in …

The active-cooling elastomer concept, originating from vascular thermoregulation for soft
biological tissue, is expected to develop an effective heat dissipation method for human skin …

Flexible sensors, made from flexible electronic materials, are of great importance in the
medical field due to the rising prevalence of cardiovascular and cerebrovascular diseases …

Accurate acquisition of physiological and physical information from human tissue is
essential for health monitoring, disease prevention and treatment. The existing antennas …