A major breakthrough at Peking University might have just found the first step beyond silicon for semiconductors.

Researchers have uncovered a surprising phenomenon in the material BiNiO3: when subjected to high pressure at low ...

Electronic devices rely on materials whose electrical properties change with temperature, making them less stable in extreme ...

More digestible than silicon Troubled Chipzilla and its mates at TSMC might want to start sweating because a bunch of Beijing ...

In an article published in the journal Nature on Thursday, the researchers said that compared to their bulkier counterparts, ...

Bismuth, the 83rd element in the periodic table, has been known since ancient times, but was often confused with lead and tin. In 1753, Claude François Geoffroy from France demonstrated that ...

Peking University has published its findings on a wafer-scale 2D GAAFET in Nature, pointing a new path into the Angstrom era ...

Javier Sanchez-Yamagishi, a physicist who studies 2D materials at the University of California, Irvine, likens the ...

But what exactly is bismuth, I hear you cry? Well, the Peking team has used bismuth in both the semiconductor and high-dielectric oxide. It's a post-transitional metal, which also applies to lead ...

A five-membered aromatic bismuth ring, prepared by researchers in Germany, addresses a long-standing challenge in synthetic ...

China produced more than 80% of world's bismuth last year - USGS Alternative producers include Korea, Japan and Laos Feb 21 (Reuters) - Bismuth prices in Europe have soared to their highest in ...

High Curie temperature and high piezoelectric constant are challenges that most piezoelectric ceramics difficult to be ...