With strong bactericidal properties, graphene has the potential to become a game changer in the fight against antibiotic-resistant bacteria. So far there have been no efficient ways to control these ...
MIT physicists have observed signs of a rare type of superconductivity in a material called "magic-angle" twisted trilayer graphene. Credit: Pablo Jarillo-Herrero, Yuan Cao, Jeong Min Park, et al MIT ...
Magnets and superconductors go together like oil and water—or so scientists have thought. But a new finding by MIT physicists is challenging this century-old assumption. In a paper appearing in the ...
A team of researchers has managed to generate and detect spin currents in graphene without using any external magnetic fields for the very first time, successfully addressing a long-standing challenge ...
A standout feature of magic-angle graphene is its extreme tunability. ‘By applying small voltages nearby, a process called ...
A collaborative European research team led by physicists from Slovak Academy of Sciences has theorized a new approach to ...
Illustration of how the razor-sharp flakes of graphene line up together on a surface and can kill bacteria without harming healthy human cells. The bactericidal graphene surfaces developed at Chalmers ...
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