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

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

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

A research team led by Professor Sun Qing-Feng in colloboration with Professor He Lin’s research group from Beijing Normal University has achieved orbital hybridization in graphene-based artificial ...

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

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

A research team from the University of Science and Technology of China has demonstrated the ability to electrically manipulate the spin filling sequence in a bilayer graphene (BLG) quantum dot (QD).

Get Instant Summarized Text (Gist) Advancements in spintronics using graphene encapsulated in hexagonal boron nitride have been achieved, enabling energy-efficient quantum electronics. By forming ...

New research from the University of Oklahoma addresses and resolves light emission challenges commonly encountered in quantum ...

Quantum dots – nanoparticles of semiconductors – were first theorized in the 1970s and then successfully synthesized in the early 1980s. When semiconductor particles are made small enough, they ...