McGill University engineers have developed ultra-thin materials that can move, fold, and reshape themselves, ...

Movable structures can be manufactured from flexible, tear-resistant graphene oxide films, which simultaneously provide ...

McGill University engineers have developed new ultra-thin materials that can be programmed to move, fold and reshape ...

McGill University engineers have developed new ultra-thin materials that can be programmed to move, fold and reshape themselves, much like animated ...

Researchers at McGill University have developed ultra-thin materials that can be programmed to move, fold and reshape ...

With the first ever documented observation of the self-healing phenomena of graphene, researchers from Hyderabad, India, hint at future applications for its use in artificial skin. Graphene, which is, ...

Graphene is often described as a wonder material. It is strong, electrically conductive, thermally efficient, and remarkably versatile. Yet despite more than a decade of excitement, many ...

Recent research has found a new way to make graphene that adds structural defects to improve the performance of the material that could have benefits across a range of applications—from sensors and ...