Instead, both teams had to innovate a setup where the tiny graphene flakes were exposed to microwaves while the researchers ...

This can help unlock its potential as a superconductive material as well as a building block for quantum computers in the ...

For two layers of graphene, her team found that the superconducting current is much “stiffer” – it resists change more – than is predicted by any conventional theory of superconductivity.

This superconductivity makes magic-angle graphene a promising building block for future quantum-computing devices, but exactly how the material superconducts is not well-understood. Knowing the ...

Discover the possibilities of twisted bilayer graphene as a replacement for silicon in integrated circuits and it's potential ...

“Although a wide range of [superconductor] correlated phenomena have indeed been observed in the moiré TMDs, robust demonstration of superconductivity has remained absent,” the researchers said in a ...

Read the paper: Superfluid stiffness of twisted trilayer graphene superconductors In the past few years, researchers have advanced our understanding of superconductivity in twisted graphene by ...

Graphene always sounds exciting, although we aren’t sure what we want to do with it. One of the most promising features of ...

This superconductivity makes magic-angle graphene a promising building block for future quantum-computing devices, but exactly how the material superconducts is not well-understood. Knowing the ...

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

This superconductivity makes magic-angle graphene a promising building block for future quantum-computing devices, but exactly how the material superconducts is not well-understood. Knowing the ...