Researchers have made stretchable OLED displays real, marking a major step toward stretchable electronics, skin-mounted ...

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 ...

The breakthrough is based on a class of materials known as MXenes: ultrathin, highly conductive sheets that combine the mechanical resilience of metals with the flexibility ...

Traditional battery components, such as electrodes, separators, and electrolytes, are typically rigid and brittle. Researchers have developed novel materials and fabrication methods to achieve ...

A laser-programmed strategy to engineer the local stiffness and interfacial properties of textiles enables the direct assembly of standard electronic components onto textiles to create stretchable ...

(Rear from left) Research Fellow Dr CAO Jinwei, NTU Prof CHEN Xiaodong, Research Fellow Dr ZHANG Hang, (Front from left) PhD student Mr SU Jiangtao and Research Fellow Dr CHEN Nuan, holding different ...

(Nanowerk Spotlight) Flexible electronics have emerged as a transformative technology, promising to revolutionize how we interact with devices and integrate them into our daily lives. The ability to ...

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, ...

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 ...

Soft electronics are increasingly in demand for diverse applications, but they lack rigid enclosures and are therefore susceptible to premature disposal after electronic applications. It is therefore ...