In a groundbreaking discovery, researchers have found that domain walls in twisted graphene can create one-dimensional superconductors. This new understanding of the properties of twisted graphene and its potential for developing novel superconducting materials has been reported by Physics World.
Twisted graphene, a material made up of layers of carbon atoms arranged in a hexagonal lattice, is known for its unique electronic properties. Domain walls – regions where the crystal lattice changes orientation – act as boundaries that confine the superconducting properties to one dimension in twisted graphene. This creates an ideal environment for electrons to move freely without encountering any obstacles.
By studying how domain walls influence the flow of electrons and the formation of superconducting states, researchers hope to understand the mechanisms behind this phenomenon. This investigation sheds light on the underlying physics of twisted graphene and offers new insights into its potential applications.
This discovery is an important step towards harnessing the potential of twisted graphene for practical applications such as developing high-performance electronic devices and energy-efficient technologies. By unraveling the mysteries of superconductivity in twisted graphene, scientists hope to unlock new possibilities for the future of materials science and technology.
