Researchers from MIT and University of Udine fabricated a transistor that uses ultrathin layers of gallium antimonide and indium arsenide arranged in vertical nanowire heterostructures with a diameter ...

Researchers have created a new material that will be pivotal in making the next generation of high-power electronics faster, transparent and more efficient.

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

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

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

A group of Chinese and Australian researchers offers a novel method for creating CdNCN-CdS heterostructures in mild ...

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

A more systematic approach to discover materials is needed. Hybrid complex inorganic oxide–conducting polymer nanocomposite ...

Solar-driven photocatalytic water splitting offers a sustainable route for hydrogen production. Researchers have explored ...

As artificial intelligence (AI) technology advances, the demand for higher-performing semiconductors is rapidly growing. The ...