(Nanowerk News) The development of an ultrathin magnet that operates at room temperature could lead to new applications in computing and electronics - such as high-density, compact spintronic memory ...

Mapping the Surfaces of MXenes Atom by Atom Reveals New Potential for the 2D Materials Drexel and UCLA Researchers Perform First Scanning Tunneling Microscopy and Spectroscopy Inspection of 2D ...

After substituting carbon atoms for sulfur atoms, the one-atom-thick material developed a bipolar effect, a p-type -- hole -- branch, and an n-type branch. This resulted in an ambipolar semiconductor.

Allmendinger, T. (2025) A Planar Atom Model of Helium Based on Well-Defined Electron Trajectories. Journal of Applied ...

Possibilities of new one-atom-thick materials Date: December 15, 2020 Source: University of Maryland Baltimore County Summary: New 2D materials have the potential to transform technologies, but ...

2D material is a fairly new research field—only a little over 5 years old—that holds a lot of promise. Everyday, scientists continue to discover new types of 2D materials such as graphene ...

In an effort to understand how and why 2D interfaces take on the structures they do, researchers at the University of Illinois Urbana-Champaign have developed a method to visualize the ...

Atom-by-atom: Imaging structural transformations in 2D materials Peer-Reviewed Publication University of Illinois Grainger College of Engineering ...

2D magnetism: Atom-thick platforms for energy, information and computing research Scientists say the tiny 'spins' of electrons show potential to one day support next-generation innovations in many ...

A single-molecule-thick 2D laser created by researchers at Berkeley Lab promises to significantly advance electronic photonic components Lawrence Berkeley National Laboratory View 3 Images ...