BUFFALO, N.Y. – The public’s appetite for inexpensive and powerful electronic devices continues to grow. While silicon-based semiconductors have been key to satiating this demand, a superior ...

Researchers developed a roll-contact printing platform that assembles highly aligned zinc oxide nanowire arrays on flexible ...

Dr. Jung-Dae Kwon's research team at the Energy & Environmental Materials Research Division of the Korea Institute of Materials Science (KIMS) has successfully developed an amorphous silicon ...

When you think of a battery, you probably don’t think stretchy. But batteries will need this shape-shifting quality to be incorporated into flexible electronics, which are gaining traction for ...

A new material for flexible electronics could enable multilayered, recyclable electronic devices and help limit e-waste. Electronic waste, or e-waste, is a rapidly growing global problem, and it's ...

Contemporary artificial intelligence (AI) systems, such as the models underpinning the functioning of ChatGPT, image generators and AI-powered creative tools, draw inspiration from the human brain's ...

As technology continues to advance, the demand for wearable devices, stretchable circuits, and printed electronics is on the rise. Our curated selection of research articles showcases the latest ...

As electronic devices continue to become more compact, flexible, and wearable, materials suppliers are coming under increased pressure to surpass traditional limitations. From foldable displays and ...

(Nanowerk Spotlight) The development of flexible electronic devices has faced a persistent materials science challenge: how to securely attach rigid metal components to flexible polymer surfaces.

A recent study published in Communications Materials explored the development of printable graphene inks using polypropylene carbonate (PPC) as a dispersant. These inks remain stable in ...

(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, ...