(Nanowerk Spotlight) Stretchable electronics promise to revolutionize wearable technology, healthcare devices, and human-machine interfaces by conforming to irregular surfaces and withstanding ...

Researchers at the Faculty of Science and Technology of Universidade de Coimbra (FCTUC) and Carnegie Mellon University developed a water-based conductive ink tailored for producing flexible electronic ...

Stretchable electronics combines the electronic performance of conventional wafer-based semiconductor devices and mechanical properties of a rubber band, and thus can have very broad applications that ...

Flexible and stretchable electronics have gained significance owing to their ability to be compressed, twisted, and molded into non-planar surfaces. Soft, flexible, and stretchable materials ...

Researchers from the Stanford Center for AEroSpace Autonomy Research (CAESAR) in the robotic testbed, which can simulate the movements of autonomous spacecraft. Small wearable or implantable ...

This new technical paper titled “Scalable Manufacturing of Liquid Metal Circuits” was published by researchers at Carnegie Mellon University. The work presents “a novel technique for scalable and ...

While the field of stretchable electronics does hold a lot of promise, joining the components of such devices together can be tricky. A new connector is designed to help, as it stretches between the ...

(Nanowerk Spotlight) Imagine a digital display as thin as a temporary tattoo, conforming perfectly to the curves of your skin, powered by a battery as flexible as the tissue beneath it. This vision, ...

Researcher Cunjiang Yu and his research team, including several of his former students, have announced a significant milestone in materials and electronics engineering: the creation of what they call ...