graphene

Nearly anything that needs to be strong and light benefits from graphene.

A completely new material system like graphene will have plenty of both.

The government will spend £50m developing commercial uses for graphene.

Several potential applications for graphene are under development, and many more have been proposed.

Many groups with these machines are graphene and 'tube based.

These discoveries led to an explosion of interest in graphene.

The isolation of graphene led to the current research boom.

Would photolithography be a thing of the past with graphene?

If graphene becomes cheap enough, high yield shouldn't be nearly as important.

It's not just industrial energy storage where graphene could step in and save the day, either.

After researchers had an easy way to make graphene, they started playing with all types of experiments.

The absorption of a single graphene layer was published in 2008.

Notable recent work has been on the use of graphene for solar cells.

As of 2009, graphene appears to be the strongest material ever tested.

The problem is I know practically nothing about graphene.

Researchers were disappointed that three layers of graphene didn't improve the situation.

Far as I know, graphene is only being used for transistors, not cables.

In several years we may be wondering how we ever lived without graphene.

Graphene is the thinnest of all possible materials in the universe.

The utter simplicity makes it possible for almost anyone to jump into graphene research.

The optical properties section below contains a photograph of what graphene looks like.

Unlike graphene, the other 2D materials have so far attracted surprisingly little attention.

These high values make graphene very strong and rigid.

All of this comes about because graphene is not a metal-like conductor.

Why would we be able to move to smaller node points on graphene than silicon?