Graphene, a sheet of carbon one atom thick, may soon have a new nanomaterial partner. In the lab and on supercomputers, chemists have determined that a cluster of 36 boron atoms forms a flat disc with ...

Researchers have shown that clusters of boron and lanthanide atoms form interesting 'inverse sandwich' structures that could be useful as molecular magnets. Brown University researchers and ...

(Nanowerk News) Seeking for low-dimensional boron allotropes has attracted considerable interest in the past decades and tremendous theoretical works predict the existence of monolayer boron. As boron ...

Achieving scalability in quantum processors, sensors, and networks requires novel devices that are easily manipulated between two quantum states. A team led by researchers from the Department of ...

When you mention boron to people and ask them what it brings to mind, there’s no shortage of answers. Some will think about borax (sodium borate), which is used to make glass and the playful ...

(Nanowerk News) Very strong, light materials that can withstand extremely high temperatures could usher in next-generation spacecraft, enhance current devices or enable the development of new ...

A beam of electrons can “kick” single atoms out of a two-dimensional sheet of hexagonal boron nitride. The vacancy is visible as a triangular dark spot at the top left. (Courtesy: Toma Susi / ...

Electron probe micro-analysis (EPMA) provides a significantly enhanced means to obtain precise and accurate quantitative elemental compositional analysis of complex materials systems at the micron ...