The discovery that inert helium can form bonds with iron may reshape our understanding of Earth’s history. Researchers from ...

For decades, noble gases like helium have been considered chemically inert, refusing to form stable bonds under normal conditions. But new research challenges this assumption, revealing that helium ...

Hydrogen nano-clusters at low temperatures display 'superfluidity'—a quantum state of frictionless flow only previously observed in helium. The new research is published in Science Advances by ...

Helium normally has trouble bonding with other elements, but researchers were able to crush atoms of iron and primordial helium together at extremely high heat and pressure to bond them in a ...

Researchers from Japan and Taiwan reveal for the first time that helium, usually considered chemically inert, can bond with iron under ... from the solar nebula of hydrogen and helium that ...

Researchers from Japan and Taiwan reveal for the first time that helium, usually considered chemically inert, can bond with iron under ... from the solar nebula of hydrogen and helium that ...

Helium is a noble gas ... rays passing through space strip argon atoms of an electron, allowing it to bond with hydrogen. Researchers also discovered that argonium is created from a different ...

Iron can form compounds with helium at pressures as low as 5GPa – about 50,000 atmospheres – researchers in Japan report.

Bond (STScl)/M. Barstow (University of Leicester) Red giants are hot enough to turn the helium at their core, which was made by fusing hydrogen, into heavy elements like carbon. But most stars are ...

Helium is notoriously hard to contain because, like hydrogen, it is a tiny little atom even by atomic standards. It also expands about 750 times when it turns into a gas, according to the post’s ...

The AT2 Aerospace Z1 airship aims to use a combination of hydrogen-powered thrust vectoring and helium buoyancy to efficiently carry people and goods over 1,000 miles (1,600 km) per trip.