The global wearable electronic skin patches market is rapidly growing, propelled by breakthroughs in flexible electronics and AI integration, responding to surges in demand for continuous health ...

S cientists have developed a new type of electronic "skin" that could give robots the ability to "feel" different tactile ...

An electronic skin that can transmit data related to heart rate and changes in the chemistry of sweat without a chip or transmission gear is a truly remarkable step.

And biological skin is soft and can stretch, repeatedly, for many decades. The Stanford team, led by chemical engineering professor Zhenan Bao, has been working on e-skin designs for several years ...

The gel-based material contains a uniform conductive layer that changes its electrical pathways in response to different stimuli such as pokes, burns, or cuts. This enables the material to simplify ...

Scientists unveil a low-cost, gelatin-based robotic skin that senses touch, heat, and cuts. The skin could give robots and prosthetics a lifelike sense of feel using fewer components.

Scientists have invented a type of electronic skin that can “talk directly to the brain”, allowing amputees to feel a human-like sense of touch through prosthetic limbs.. The ground-breaking ...

Researchers at the Universities of Cambridge and UCL have developed a new type of electronic skin. In research published on June 11, scientists unveiled a conductive gel that detects heat, pressure, ...

Scientists with the Bao Research Group at Stanford University have created a new electronic skin that can mimic the sense of touch. The “e-skin,” as some refer to it, is detailed in a new ...

Researchers from the University of Cambridge and University College London have developed a new type of responsive “ synthetic skin .” The skin is made from a single hydrogel that is capable of ...