Researchers from the National University of Singapore (NUS) have recently achieved a significant breakthrough in the ...

Researchers have recently achieved a significant breakthrough in the development of next-generation carbon-based quantum materials, opening new horizons for advancements in quantum electronics. The ...

Electron transport in bilayer graphene exhibits a pronounced dependence on edge states and a nonlocal transport mechanism, according to a recent study.

Dr Song Shaotang (right) and PhD student Teng Yu (left) were part of the multidisciplinary research team that developed the ...

A team including Kyoto University researchers said Thursday that it has taken a major step toward the practical use of a ...

Pattern template for graphene nanoribbons: Depending on the direction of the ribbon axis, graphene nanoribbons have an armchair edge (orange) or a zigzag edge (blue). (Image: Empa) Graphene ...

In 2004, their dream came true. British scientists first created Graphene—one of the forms of nanocarbon that is only 0.3 nanometers thick—a million times thinner than a human hair ...

His research primarily focuses on various aspects of materials science, encompassing single magnetic atoms and films, organic molecules, graphene nanoribbons, Fe/MgO interfaces, nanomagnets on an ...

Graphene, a single layer of carbon atoms said to be the thinnest and strongest substance ever recorded, was hailed as a gamechanger after Prof Konstantin Novoselov and Prof Andre Geim revealed it ...

The development of combined organic and on-surface synthesis allows for the fabrication and characterization of organic nanomaterials with atomic precision. Such materials have the potential to ...