To Shrink electronics circuits further, in sizes of atomic thickness, opto lithography and the present semiconductor material such as silicon is not serving the purpose. The paradigm shift in this ...

Graphene, which comprises a single layer of carbon atoms arranged in a honeycomb ... In low-frequency circuits, impedance is zero, so Tanaka et al. and Banerjee et al. instead used high-frequency ...

Graphene — a single layer of carbon atoms arranged in a honeycomb lattice — is already attracting interest for its various applications in electronics and optoelectronics, including its use as ...

Schematic models of chemical strategies towards graphene from different carbon sources. (Reprinted with permission from Wiley-VCH Verlag ... Read more in our article on 3D graphene. Notwithstanding ...

Researchers have found that a two-dimensional carbon material is tougher than graphene and resists cracking—even the strongest crack under pressure, a problem materials scientists have long been ...

The groundbreaking Science paper that laid out foundations of graphene research is one of the most cited publications of all time. Despite only being brought out in 2004, the seminal work 'Electric ...

Zigzag scientists: NUS researchers Lu Jiong (centre), Song Shaotang (right) and PhD student Teng Yu (left) were part of the multidisciplinary research team that developed the Janus graphene ...

(Nanowerk News) Even the strongest crack under pressure, a problem materials scientists have long been grappling with. For instance, carbon-derived materials like graphene are among the strongest on ...

Graphene is well known for its strength, electrical conductivity and thermal properties, but it is typically produced in a powder form that can be difficult to work with, therefore limiting its uses.