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 ...

Graphene has drawn attention as a scientific curiosity owing to its record conductivities, strength and thermal properties.

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

New findings reveal that organosulfate groups, not carboxyls, control graphene oxide's surface charge in water, challenging long-standing models and reshaping its chemical profile. (Nanowerk Spotlight ...

"This breakthrough in PFAS filtration has the potential to revolutionise how PFAS contamination is managed globally." When you purchase through links on our site, we may earn an affiliate commission.

This looks like a graphene story at first glance, but it isn't. Graphene has two major problems: it's tough to make, and we don't really know what its keystone use is. High-quality graphene is made by ...

Graphene has long been hailed as a "wonder material." It is incredibly strong, highly conductive and almost impossibly ...

Graphene-based polymer coatings reduce marine biofouling by physically damaging cells on contact, cutting fuel use and ...

Inhaling an ultra-pure form of the ‘wonder material’ graphene did not produce any short-term adverse effects on lung and cardiovascular function in a small group of healthy volunteers. The ...