在石墨烯互连排列之后，对石墨烯层进行掺杂以降低电阻率并提高其载流能力。Destination 2D团队使用一种称为插层（intercalation）的掺杂技术，即将掺杂原子扩散到石墨烯片层之间。

In a study published in Applied Physics Letters, Tohoku University researchers and collaborators developed a mild ...

Adisyn’s acquisition of 2DG could help capture opportunities in the hot and emerging semiconductor market. ... Read More The ...

Researchers from Tohoku University and collaborators have developed a weak fluorination strategy to address the zero-bandgap ...

Their tests showed that fluorinated graphene has improved light-emitting abilities, making it promising for use in LEDs, ...

"Our experiments revealed that proximitized graphene, the central component of this all-2D spin valve, exhibits a coexistence of spin-orbit and magnetic proximity effects," said Yang. "This ...

Destination 2D’s CMOS-compatible interconnect design innovation is achieved via intercalation-doped and edge-contacted ...

Researchers from Tohoku University and collaborators have developed a weak fluorination strategy to address the zero-bandgap ...

Graphene has lived up to its promise in the lab. Now, EU-funded researchers are working on supporting its wider adoption in high-end electronics, photonics and sensors. Dr Inge Asselberghs has ...

Destination 2D, a Milpitas startup which has graphene inventor and Nobel laureate Konstantin Novoselov (pictured) as its chief scientist, has made ...

Band structure: Noninteracting band structure for pentalayer graphene at a displacement field energy of -40 meV. There is a wide gap between valence and conduction bands, and a zoomed-in view at right ...