In a groundbreaking discovery, researchers at New York’s Cornell University found that tiny metal particles bond best at a ...

Faster isn't always better when it comes to high-speed materials science, according to new Cornell research showing that tiny ...

When tiny metal particles fly at supersonic speeds and hit a surface, they can stick together and form strong bonds. This process is used in industries like 3D printing and cold spray coating to build ...

This is due to the increased positive charge on the metal ion and the increased number of electrons that are delocalised, resulting in stronger bonding.

However, oxides with transition metals that straddle the subtle boundary between covalent, ionic and metallic bonding show copious physical phenomena, ranging from high-T c superconductivity in ...

They have proposed the underlying origins of fragility in metallic glass (MG ... could be linked to the formation of covalent-like bonding between Al-Al interactions triggered by the introduction ...

Metallic lattices do not contain fixed numbers of atoms. This means that the chemical formula used for a metal is simply the symbol for the element. For example, the formula for iron is Fe, even ...