Graphene has many fantastic properties that could change the course of human civilization. It's chemically stable, highly conductive, and incredibly strong. One thing it is not, however, is magnetic.

Researchers from the National University of Singapore (NUS) have recently achieved a significant breakthrough in the development of next-generation carbon-based quantum materials, opening new horizons ...

Hierarchical magnetic graphene–SiCN aerogels were constructed via a stepwise confinement strategy, in which ZIF-derived magnetic nanoparticles and a polysilazane-derived SiCN ceramic layer were ...

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

Physicists have watched a quantum fluid do something once thought almost impossible: stop moving. In experiments with ...

Artist’s impression of the quantum spin Hall effect in a graphene-based spintronic device, integrated in a chip. The blue and red spheres are spin-up and spin-down electrons traveling along the edge ...

Physicists have observed a strange new quantum phase in a graphene-based system, where a superfluid appears to freeze into a solid-like state. Cooling usually pushes matter through a simple sequence.

The University of Birmingham is collaborating with Paragraf Ltd, a UK-based company pioneering the mass production of graphene-based electronics, with funding awards to accelerate the scaling up of ...

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