A new atomically precise carbon sheet combines nanoporous graphene and biphenylene stripes, offering controlled ...

GNRs can be synthesized through top-down or bottom-up methods, each providing precise control over their structure and enabling their use in advanced nanoelectronics and spintronics. GNRs are created ...

WASHINGTON, D.C., August 1, 2016 -- It is now feasible to make a prized material for spintronic devices and semiconductors -- monolayer graphene nanoribbons with zigzag edges. Miniscule ribbons of ...

Graphene nanoribbons have outstanding properties that can be precisely controlled. Researchers have succeeded in attaching electrodes to individual atomically precise nanoribbons, paving the way for ...

NUS researchers Assoc Prof Lu Jiong (centre), Dr Song Shaotang (right) and PhD student Teng Yu (left) were part of the multidisciplinary research team that developed the Janus graphene nanoribbons, a ...

The main obstacle to the wider adoption of graphene in electronics and optoelectronics is the material's lack of an intrinsic electronic bandgap, making the production of graphene-based field-effect ...

The U.S. Navy distributes electricity aboard most of its ships like a power company. It relies on conductors, transformers and other bulky infrastructure. The setup works, but with powerful, ...

New research paper titled “Graphene nanoribbons initiated from molecularly derived seeds” from researchers at University of Wisconsin-Madison with contributions from Argonne National Laboratory.

Increased efficiency: Illustration showing layers of a solar cell incorporating phosphorene nanoribbons and (right) an image of a nanoribbon. (Courtesy: T J Macdonald and T Webb) Phosphorene ...