The authors developed a theoretical framework and experimental approach to achieve orbital hybridization in graphene-based quantum dots. They proposed that anisotropic potentials in artificial ...

Researchers demonstrate orbital hybridization in graphene-based quantum dots, revealing how anisotropic confinement influences electronic states at the atomic scale. Quantum dots, often described as ...

Quantum dots are nanoscale man-made crystals that have the ability to convert a spectrum of light into different colors. Each dot emits a different color depending on its size. (Image: RNGS ...

As the demand for innovative materials continues to grow—particularly in response to today's technological and environmental ...

Carbon's allotropes, like graphene and nanotubes, offer superior properties for quantum computing, driving energy efficiency ...

The use of carbon quantum dots in wound healing accelerates recovery, leveraging their unique properties for effective ...

Scientists have developed a more stable platform for Majorana zero modes, exotic particles that could revolutionize quantum ...

Scientists at Macquarie University and the University of New South Wales have broken through significant barriers to ...

material called graphene with special quantum characteristics. Scientists have since explored how optical and electrical properties of graphene and other 2D materials change when layered on top of ...

Graphene is a two-dimensional material consisting of a single layer of carbon atoms arranged in a honeycomb structure. Its properties include high strength and good conductivity of heat and ...