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Scientists have been able to demonstrate that graphene nanostructures can be generated by annealing of a nanostructured silicon carbide crystal for a few years. "These two-dimensional, spatially strongly restricted carbon bands exhibit a vanishingly small electrical resistance even at room temperature. They are thus ballistic," explains Prof. Dr. Christoph Tegenkamp, Head of the Professorship of Solid Surfaces Analysis at Chemnitz University of Technology. Something similar does not happen, for example, with an expanded and perfectly two-dimensional layer of graphene.

Physicists at Chemnitz University of Technology, working together with researchers from Eindhoven University of Technology (Netherlands), the Max Planck Institute in Stuttgart, and the MAX IV Laboratory in Lund (Sweden), succeeded in a better understanding of this quantum effect. "We could verify the exact of these so-called nanoribbons for the first time with help of an extremely high-resolution transmission electron microscope," reports doctoral student Markus Gruschwitz from the Professorship of Solid Surfaces Analysis. Thi Thuy Nhung Nguyen, who is also completing her doctoral studies in this area, adds, "Together with measurements from the , the particular quantum state of this system could now be localized and spectroscopized with high resolution."

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