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

Since the discovery of graphene in 2004, research over the past two decades has advanced the use of 2D materials in semiconductor manufacturing, with academia playing a crucial role in driving ...

The excitement among researchers and industries around 2D materials is not focused only on graphene. The researchers are also interested in other super thin materials that can—like silicon—act ...

One way around this problem is to replace silicon with graphene-like 2D materials that maintain their semiconducting properties even at a single-atom scale. Another way is building 3D chips ...

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

Nanoelectronics deal with extremely small electronic components—transistors, sensors and circuits that can fit on the tip of a needle. This technology powers our everyday lives through devices such as ...

Researchers from the University of British Columbia, the University of Washington, and Johns Hopkins University have ...

Two-dimensional (2D) materials, such as graphene, have numerous practical applications in areas that include electronics in transistors, sensors and detectors; as battery and fuel cell electrodes; and ...

MIT physicists have created a new ultrathin, two-dimensional material with unusual magnetic properties that initially ...

University of Ottawa researchers enhance THz wave frequency conversion in graphene, paving the way for advanced wireless ...

A new study by MIT physicists has discovered an unusual magnetic property in a two-dimensional material with unusual ...