Using a unique method, physicists at the University of Vienna led by Jani Kotakoski have for the first time made graphene drastically more stretchable by rippling it like an accordion ... is required ...

This paves the way for new applications in which certain stretchability is required (e.g. wearable electronics ... drastically more stretchable by rippling it like an accordion.

Austrian researchers have unlocked a groundbreaking property of graphene, making it significantly more stretchable by manipulating its structure to ripple like an accordion using a one-of-a-kind ...

When users are assembling stretchable electronic devices, they simply press each end of one BIND connector to the circuitboard, etc in each of two components – the ends securely adhere ...

People have become accustomed to wearable electronics, but what about stretchable ones? There is a growing demand for this type of technology, but the current methods are not easily scalable for mass ...

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 ...

Using a unique method, physicists at the University of Vienna led by Jani Kotakoski have for the first time made graphene drastically more stretchable by rippling it like an accordion. This paves ...

In fact, the focus on meticulous cleanliness of the material surface led to the discovery of the so-called accordion effect ... and therefore it becomes more stretchable," explains Wael Joudi.

Using a worldwide unique method physicists at the University of Vienna led by Jani Kotakoski have for the first time made graphene drastically more stretchable by rippling it like an accordion ... is ...

Using a worldwide unique method physicists have for the first time made graphene drastically more stretchable ... it like an accordion. This paves the way for new applications in which certain ...