In a discovery that brings a legendary quantum theory to life, physicists at Princeton University have directly observed ...

Researchers have achieved orbital hybridization in graphene-based quantum dots for the first time. This breakthrough provides ...

Quantum dots are tiny, man-made structures often called “artificial atoms” because they can trap and control electrons in ...

since they require large-scale graphene structures. The applications below, though microscopic for the most part, could hit the real world more quickly. One of the most potentially useful and ...

Researchers are exploring materials like carbyne and borophene as stronger alternatives to graphene. Find out how these ...

A research team led by Professor Sun Qing-Feng in collaboration with Professor He Lin's research group from Beijing Normal ...

Researchers demonstrate orbital hybridization in graphene-based quantum dots, revealing how anisotropic confinement ...

Scientists at Princeton University have made a groundbreaking discovery in quantum materials, revealing that electron energy ...

A research team led by Professor Sun Qing-Feng in colloboration with Professor He Lin's research group from Beijing Normal University has achieved ...

Their findings, entitled “Orbital hybridization in graphene-based artificial atoms ... bridging the gap between artificial and real atomic behaviors. Why it matters: 1. Quantum dots, often ...

Environmental conditions can cause damaging stress to plants, posing challenges for home gardeners and farmers. Therefore, early detection -- before leaves visibly discolor, wilt or wither -- is ...