The high-performance semiconductor devices powering smartphone displays, AI computing, EV batteries and more are increasingly ...

Forward-looking: An international team of scientists have published research on a novel way to grow 2D materials using a method that could bring 2D transistor-based electronics to market sooner rather ...

The new framework replaces approximations, accurately modeling current crowding and spreading resistance in 2D materials to improve high-performance semiconductor devices.

Finding new materials with useful properties is a primary goal for materials scientists, and it's central to improving technology. One exciting area of current research is 2D materials—super-thin ...

Scientists have long been keen to develop atomically thin 2D metals, thereby expanding the 2D material family beyond vdW layered structures. These ultrathin 2D metals would also enable the exploration ...

Researchers have unlocked a new method for producing one class of 2D material and for supercharging its magnetic properties. At just a few atoms of thickness, 2D materials offer revolutionary ...

Forward-looking: As manufacturers search for ways to extend the life of Moore's Law, building transistors only a few atoms thick – called 2D Materials – could be a path forward. Researchers are trying ...

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 ...

From computers the size of an office floor to two-dimensional semiconductors invisible to the human eye, electronics are shrinking while gaining power — but can the source materials keep up? Silicon ...

In the study, a team of researchers describe what they believe to be the first measurement showing direct interaction between electrons spinning in a 2D material and photons coming from microwave ...