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

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

Vertical graphene microstructures break the thickness-performance tradeoff in thermoacoustic speakers, enabling flexible ...

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 ...

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

Researchers from Shanghai Jiao Tong University, under the direction of Xuzhou Yan, developed a supermaterial by arranging carbon atom layers in a honeycomb structure. Due to its high conductivity and ...

One of the discoveries that fundamentally distinguished the emerging field of quantum physics from classical physics was the ...

Scientists have announced a groundbreaking development in hydrogen ion barrier films using graphene oxide (GO) that lacks internal pores. This innovative approach promises significant advancements in ...

Laser-scribed graphene is a versatile technique that involves the use of a high-power laser to directly pattern and reduce graphene oxide (GO) films into graphene structures under ambient conditions ...