High-dielectric-constant elastomers possess outstanding softness and stretchability. They allow a fast response and have a high reliability, and thus have been widely applied to wearable electronics.

The atoms of amorphous solids like glass have no ordered structure; they arrange themselves randomly, like scattered grains ...

In a breakthrough, researchers show that a material called indium selenide can “shock” itself to transform from a crystalline ...

A breakthrough discovery in indium selenide could revolutionize memory storage technology by enabling crystalline-to-glass ...

Researchers creates a low-loss and high-dielectric elastomers material for smart wearable electronics.

Biodegradable structures have the potential to transform energy, information technology, and advanced medicine. Step aside, ...

Properties such as ferroelectricity can be controlled by the assembly modes of constituent molecules," says Prof. Maeda. "Our research has revealed new features of molecular assemblies by ...

In breakthrough collaborative work published today in Nature , researchers show that a material called indium selenide can "shock" itself to ...