A research team in Japan has designed what they believe is the most comfortable e-skin to date by using a wood-derived material to create a lightweight, durable, and comfortable material on which to ...

Researchers at the University of Texas have developed the first stretchy, electronic skin with many of the same characteristics as human skin. The researchers have committed to creating a stretchy ...

(Nanowerk Spotlight) Creating technology that mimics human skin—a flexible, sensitive, and self-healing organ—has remained a significant challenge in material science and robotics. Electronic skin, or ...

Research led by Zhenan Bao – K.K. Lee Professor of Chemical Engineering and, by courtesy, Professor of Chemistry and Materials Science and Engineering – was published in Science in May 2023 for ground ...

Secures core technology for high-resolution wearable devices through semiconductor transfer technology... Speeds up the commercialization of next-generation health monitoring devices. - Research ...

A stretchy electronic skin could equip robots and other devices with the same softness and touch sensitivity as human skin, opening up new possibilities to perform tasks that require a great deal of ...

Researchers have designed a cellulose nanofiber paper (nanopaper) that can be used as a substrate for on-skin electronics. The porous structure of the nanopaper means that it can conform and adhere to ...

Researchers transform natural leather into an electronic skin that combines pressure sensing, thermal regulation, and impact protection in a flexible format. Real skin does more than just sense touch; ...

In a recent review article published in the journal Nature Medicine Intelligence, scientists at the California Institute of Technology discussed the involvement of artificial intelligence (AI) ...