For three decades controversy has raged over whether electrons confined to a two-dimensional (2D) world can conduct ... the screening model qualitatively accounts for the analogy.

Discover how Penn State’s 2D CMOS computer breakthrough paves the way for ultra-efficient, atomic-scale electronics beyond silicon.

Density functional theory is a widely used computer-based quantum mechanical method for calculating properties of atoms, ...

"The layers do not just rest on each other; electrons move and form new interactions ... the method could apply to a wide range of 2D materials, enabling the development of designer 2D hybrids ...

A new platform for engineering chiral electron pathways offers potential fresh insights into a quantum phenomenon discovered ...

In most 2D material stacks, the layers simply sit in place, held together weakly like magnets on a fridge door. But in glaphene, the layers lock together through much more than what are called weak ...

Simulations reveal previously unknown 2D phthalocyanine monolayers combining structural stability, high mobility, and direct ...

In a world first, a team led by researchers at Penn State used two-dimensional materials, which are only an atom thick and ...

An international team of researchers led by Rice University materials scientists has succeeded in creating a genuine 2D hybrid by chemically ... rest on each other ⎯ electrons move and form ...

Many pure metals are too soft for many uses. They can be made harder by adding another element to the pure metal, so forming an alloy. This explains why an alloy often has more uses than the pure ...

is the Alloy Analyzer toolset. The Analyzer is an automated analysis engine that searches for all valid instances, which are assignments to the sets of the model such that all executed formulas hold, ...