Faster isn't always better when it comes to high-speed materials science, according to new Cornell research showing that tiny metal particles bond best at a precise supersonic speed. In industrial ...

Researchers also discovered that liquid gallium is not entirely disordered at its surface, forming subtle, layered atomic ...

A new approach reveals unexpected ways oxygen can bind to rare metals. Iron plays a central role in how the body uses oxygen. In hemoglobin, it binds dioxygen, a pair of oxygen atoms, allowing blood ...

A new type of 3D-printed adhesive could change how we join materials together. So far, scientists have developed two new methods that can create extremely strong bonds at the pore level, eliminating ...

Chemists have isolated the first homoleptic titanium (0) and zirconium (0) complexes that are seven‑coordinate and stabilised ...

Attractive metal-metal bonding occurs in a variety of molecules made of metallic atoms such as Iridium (Ir). These molecules can have different spatial arrangements, called isomers. Current ...