Researchers at ETH Zurich have developed a new technique to better understand how electrons interact within materials. By ...

Boron, carbon, nitrogen and oxygen: these four elements can form chemical triple bonds with each other due to their similar ...

Scientists in Germany have achieved something never seen before: creating a stable boron-carbon triple bond. While triple ...

In combination with the triple bond, this is about as uncomfortable as it gets for boron, requiring very special conditions,” ...

E Advanced Materials, Inc. (NASDAQ:FEAM)(ASX:5EA), a boron and lithium company with U.S. government Critical Infrastructure designation for its 5E Boron Americas (Fort Cady) Complex announced today ...

E Advanced Materials provided preliminary economic ranges of its permitted, in-situ boron mining project in California. As the Company nears ...

A new estimate indicates the Rhyolite Ridge mine site northwest of Las Vegas has 45% more lithium-boron deposits than ...

Sibanye-Stillwater has decided not to invest $490 million into ioneer’s Rhyolite Ridge Lithium Boron Project in Nevada, ...

A research team led by Prof. Hu Xiaoye from the Hefei Institutes of Physical Science of the Chinese Academy of Sciences has ...

A multi-institutional research team has engineered a way to preserve the electrical properties of materials as they are shrunk to the nanoscale. The use of the soft substrate hexagonal boron nitride ...

Boron, carbon, nitrogen and oxygen: these four elements can form chemical triple bonds with each other due to their similar ...

Boron, carbon, nitrogen and oxygen: these four elements can form chemical triple bonds with each other due to their similar electronic properties. Examples of this are the gas carbon monoxide, which ...