By twisting layers of graphene, researchers discovered a unique electronic crystal where electrons freeze in place yet allow ...

Right now, such tattoos don’t exist, but the key technology is being worked on in labs around the world, including my lab at ...

Researchers from the University of British Columbia, the University of Washington, and Johns Hopkins University have ...

“Although a wide range of [superconductor] correlated phenomena have indeed been observed in the moiré TMDs, robust ...

“Several theory groups have speculated that analogues of these structures could emerge in quantized anomalous Hall systems, ...

The breakthrough came from Ruiheng Su, an undergraduate student at UBC, who observed a unique configuration in twisted ...

"Graphene is renowned for its properties, including chemical stability and electrical conductivity," Sankaran explains. "However, graphene has poor lifetime stability in severe plasma environments." ...

comprising two vertically stacked graphene layers, can exploit externally applied electric fields to modulate its electronic band gap -- a property essential for electron transport. This ...

Scientists from UBC and other institutions discovered topological quantum states in graphene, unlocking new possibilities for quantum computing.

Graphene is a material poised to revolutionise the electronics and semiconductor industries. Once a laboratory curiosity, it now faces the critical challenge ...

Graphene nanoribbons, which are narrow strips of nanoscale honeycomb carbon structures, exhibit remarkable magnetic properties due to the behaviour of unpaired electrons in the atoms' π-orbitals.