Researchers at Berkeley Lab, using a trio of single-atom-thick wonder materials -- graphene, boron nitride, and molybdenite -- have created the first all-2D field-effect transistor. This FET could ...

CDimension develops atom-thin 2D materials that make chips faster, more efficient, and ready for AI and quantum computing.

A new method enables 2D-material semiconductor transistors to be directly integrated onto a fully fabricated 8-inch silicon wafer, which could enable a new generation of transistor technology, denser ...

A new method for printing 2D material transistors delivers flexibility and performance without the toxic trade-offs of traditional fabrication. Study: Ionic-Liquid Free and Flexible Transistors Made ...

Squeezing the right amount of potassium ions between the atomic layers of molybdenum disulfide can turn it from a semiconductor into a metal, superconductor or insulator Figure 1: A photograph of the ...

Atomically thin materials like graphene are single molecules in which all the chemical bonds are oriented so that the resulting molecule forms a sheet. These often have distinctive electronic ...

Researchers at Tokyo Tech have made a lateral ferroelectric memory transistor using a 2D material. They picked α-In 2 Se 3, which is “renowned for high carrier mobility, tunable bandgap and strong ...

Squeezing the right amount of potassium ions between the atomic layers of molybdenum disulfide can turn it from a semiconductor into a metal, superconductor or insulator. “The variety of electronic ...

This week's cover of the international journal 'Science' features electrodes connected to a hydrogel, a soft polymer material ...