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 ...

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 ...

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.

Immersing oneself in the virtual and augmented reality world is not only awesome for entertainment, it helps industries like manufacturing and medicine operate more efficiently. Nevertheless, as fast ...

(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, ...

New and repurposed fabrication techniques for flexible electronic devices are proliferating rapidly. Some may wonder if they are better than traditional methods and at what point they’ll be ...

The introduction of a nanometric germanium oxide layer drastically improved device performance and stability. As the global demand for clean energy accelerates, solar power continues to attract ...

The important materials making transient electronics a reality. The current challenges of transient electronics. How transient electronics could tackle e-waste. Electronics have long been defined by ...

A team of researchers at the Institute for Basic Science (IBS) in South Korea has developed a novel dry transfer printing method for flexible electronic devices. This breakthrough enables the transfer ...