To engrave random wrinkling patterns on styrene–ethylene–butylene–styrene (SEBS) electronic skin, the researchers chemically ...

In a breakthrough that could redefine the future of wearable technology, scientists at the Terasaki Institute for Biomedical ...

THE DEVICE: The epidermal electronic system (EES) is flexible, thinner than a human hair, and applied to the skin like a fake tattoo. Depending on the embedded circuitry, it can monitor body ...

Scientists at a German research lab have created an ultra-thin, flexible electronic skin (e-skin) that can detect and track magnetic fields using a single global sensor. Unlike previous designs ...

Researchers at California’s Terasaki Institute for Biomedical Innovation have developed a new type of electronic ... The e-skin was able to capture muscle activity data during exercise - AdobeStock ...

The method could pave the way for new classes of electronic devices, such as ultrathin wearable sensors, flexible transistors and computing elements, and highly sensitive and compact imaging devices.

or robot-like skin for humans. The study appeared July 24 in the journal Nature. There are other flexible electronic devices out there, but this is by far the thinnest and most bendable.

The research team developed a production technology that allows for random wrinkle patterns to be easily imprinted on flexible polymer (SEBS) electronic skin. After chemically treating the ...

Building on the properties of human skin and the self-decoupling principle of the Halbach array, they developed a flexible magnetic sensor after two years of research that can distinguish forces in ...