“It opens the door to combining entirely new classes of 2D materials — such as metals with insulators or magnets with semiconductors — to create custom-built materials from the ground up,” Iyengar ...

In a world increasingly driven by high-speed communication and low-power electronics, a team of researchers from the National ...

Shengxi Huang explains why Picoquant’s instruments are helping her to develop 2D materials that are highly efficient sources ...

wherein both conformational changes and lattice distortions occur simultaneously in the crystal lattice. The study indicates that a nucleation and growth mechanism is compatible with concerted ...

The discovery of superconductivity in twisted bilayer graphene sparked interest in the electronic properties of similarly distorted 2D crystal lattices. The twisted structure is created by ...

Within that family of ultrawide bandgap devices, AlN has generated significant attention for many years. Judged by various ...

The salts formed between 4-dimethylaminopyridine and fumaric acid included one or two fumaric acid molecules within the crystal lattice. Thus, the reported grid of crystal forms demonstrates the ...

Abstract: A rectangle lattice silica-host photonic crystal fiber with large mode area (LMA) is successfully fabricated for the first time. The introduction of rectangle lattice contributes to distinct ...

This structure called booklet with pictures and cylindrical vacancies, produces porosities in the kaolinite lattices while Kao2 presents rod-shaped forms of "stalactite", presenting better ...

Thomas F. Fässler from the Chair of Inorganic Chemistry with a Focus on Novel Materials introduced tiny vacancies—or gaps—in the crystal lattice of the conductor material. These engineered ...

This creates specific gaps, so-called vacancies, in the crystal lattice of the conductor material. These gaps help the lithium ions to move more easily and faster, resulting in a new world record ...