This advancement addresses a critical challenge in wearable technology—the need for durability in daily use. Traditional electronic skin devices often fail when scratched or damaged, limiting their ...

Researchers have achieved a breakthrough in wearable health technology by developing a novel self-healing electronic skin (E-Skin) that repairs itself in seconds after damage. This could potentially ...

Researchers have successfully developed an ultra-sensitive pressure sensor for electronic skin modeled after the nervous system in the human brain. This technology is applicable to future devices, ...

An electronic glove equipped with sensitive sensors is the innovative creation from researchers aiming to one day provide ...

Robots are getting a sense of touch and a rudimentary sense of pain. A neuromorphic electronic skin can now encode tactile information into neural-like signals, detect harmful contact, pinpoint damage ...

DGIST (President Kunwoo Lee) announced that a joint research team led by Professor Seongwon Lee from the Department of Physics Chemistry, Professor Hyunil Kang of Hanbat National University, and ...

This advancement addresses a critical challenge in wearable technology -- the need for durability in daily use. Traditional electronic skin devices often fail when scratched or damaged, limiting their ...

Los Angeles, CA – February 12, 2025—Researchers have achieved a breakthrough in wearable health technology by developing a novel self-healing electronic skin (E-Skin) that repairs itself in seconds ...