Right now, such tattoos don’t exist, but the key technology is being worked on in labs around the world, including my lab at ...

By twisting layers of graphene, researchers discovered a unique electronic crystal where electrons freeze in place yet allow ...

The work by researchers in the Center for Advanced Semiconductor Technologies could lead to energy-efficient microelectronics ...

Since the discovery of graphene in 2004, research over the past two decades has advanced the use of 2D materials in ...

Nanoelectronics power our everyday lives, from smartphones and computers to medical devices. This field focuses on creating ...

Achieving the strongest, thinnest, and most conductive graphene would require manufacturers to grow a perfect single layer, ...

A team of researchers has developed innovative methods to enhance frequency conversion of terahertz (THz) waves in graphene-based structures, unlocking new potential for faster, more efficient ...

In principle, graphene is the ideal material for these electrodes. Consisting of 2D sheets of carbon atoms, it has now been extensively studied since its initial characterization in the early 2000s.

A breakthrough in decoding the growth process of Hexagonal Boron Nitride (hBN), a 2D material ... hBN -- often nicknamed "white graphene" -- is an ultra-thin, super-resilient material that ...

Common graphene synthesis approaches include mechanical ... The large-scale synthesis of high-concentration dispersions of 2D nanosheets remains challenging. Here, the authors report a multi ...

The work, from researchers in the UB Center for Advanced Semiconductor Technologies, could lead to energy-efficient ...