Science
Understanding the Superconductivity Limits of Twisted Bilayer Graphene
Research highlights the challenges faced by twisted bilayer graphene in maintaining superconductivity when interacting with high-dielectric substrates, raising questions about material performance.
Editorial Staff
1 min read
Updated about 4 hours ago
Twisted bilayer graphene has garnered attention for its unique superconducting properties, but recent findings suggest limitations when exposed to high-dielectric materials.
Superconductors are known for their ability to conduct electricity without resistance, a phenomenon typically observed in conventional superconductors at low temperatures.
The study sheds light on the behavior of electrons in these materials, particularly how they form Cooper pairs, which are essential for superconductivity.