Researchers transformed red marker ink into graphene-based circuits using a laser, enabling low-cost, flexible electronics on ...

Researchers created a flexible thermoelectric generator using sponge-like carbon nanotubes to efficiently power small ...

Just one look at the next-generation lightweight, soft exoskeleton for children with cerebral palsy reveals the powerful role ...

TOMRA Recycling’s WasteExpo exhibit #1779 will be a platform for show attendees to learn what state-of-the-art AI technology ...

An AI-powered sticker can identify real motions - even when someone's trying to hide how they're feeling. The ...

Although soft robotics — unlike traditional rigid robots — are composed of flexible materials that mimic the movement of ...

A team of scientists from MIT introduced a novel strategy and manufacturing process called atomic lift-off that enables the ...

Biomedical skin patches integrating multiple sensing, power, and reporting disciplines are receiving significant R&D effort.

Inspired by the human sense of touch, Youcan Yan, a CNRS postdoctoral researcher at the Laboratory of Computer Science, ...

A wearable sensor developed by Penn State researchers tracks real emotions through body signals like heart rate and skin ...

An electronic sensor "skin" grown by MIT engineers could revolutionize next-generation night vision and autonomous vehicles.

MIT engineers have developed a technique to grow and peel ultrathin "skins" of electronic material. The method could pave the ...