Two-dimensional magnetic materials have remarkable potential applications in spin switches and storage devices. Designing ...

As artificial intelligence (AI) technology advances, the demand for higher-performing semiconductors is rapidly growing. The development of new materials and innovative structures to achieve ...

A U.S. Naval Research Laboratory (NRL) multi-disciplinary team developed a new paradigm for the control of quantum emitters, ...

This study presents a novel approach utilizing the concentration gradient of thiourea dissociation products to synthesize a ...

The KIMM research team has achieved the world’s first successful fabrication of a 4-inch heterostructures semiconductor using ...

As new technologies and artificial intelligence advance, the demand for efficient and high-performance semiconductors is ...

A new technical paper titled “Deep-ultraviolet transparent conducting SrSnO3 via heterostructure design” was published by ...

"This novel heterostructure introduces a new paradigm for control of quantum emitters by combining the nonvolatile ferroic properties of a ferroelectric with the radiative properties of the ...

The method scales up wafer size and improves reproducibility, marking a significant step forward in semiconductor development ...

Layered assembly of 2D materials such as graphene have potential roles in the development of new electronic devices.

Researchers from MIT and University of Udine fabricated a transistor that uses ultrathin layers of gallium antimonide and ...

Researchers at the University of Minnesota have achieved a new material that will be pivotal in making the next generation of high-power electronics faster.