To make stretchable electronics, engineers must start with materials that can tolerate strain. That’s why the ability to endure being stretched is a sought-after quality in flexible electronics, ...

Chinese scientists have developed fully flexible, hair-thin fibre chips with integrated circuits, boasting a density ...

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 ...

Chinese researchers have embedded full computing circuits into stretchable fibers thinner than a human hair, opening new ...

Researchers from Stanford University developed skin-like, stretchable integrated circuits capable of driving a micro-LED screen with a refresh rate of 60 Hz and detecting a braille array that is more ...

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 ...

Demonstration of how the stretchable skin might be adhered to a person's arm. The great benefit of rubbery CMOS is that it provides the circuit functionality of conventional CMOS while also being ...

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

(Nanowerk News) Wearable electronics that can monitor health and provide real-time feedback have long been envisioned as the future of personalized medicine. But most wearables today simply collect ...

What are the challenges for real-time biosensing and “edge” analysis? How do gold and gold-silver nanowires address the issue? How these sensors can implement elementary logic functions. Wearable ...