Scientists have discovered a new way of creating superheavy elements by firing supercharged ion beams at dense atoms. The ...

The finding pushes “superheavy” chemistry, which involves extremely massive radioactive elements, to a new level – and could even lead to a rearrangement of the periodic table.

Experiments to study the chemistry of the heaviest elements—especially the superheavy elements, which have more than 103 protons—have long been a challenge.

Superheavy science: Lab's actinide abilities enable the discovery of new elements It's elemental—scientists agree that the periodic table is incomplete.

Tim Dean quotes David Hinde of the Australian National University at Canberra, who believes that superheavy elements may not form in supernovae because of the very short spontaneous-fission half ...

Comparing the two chains, Hofmann says, will help researchers better understand the characteristics of superheavy elements. Element 117 is tentatively known as ununseptium.

Superheavy nuclei: Atomic nuclei with an extremely high number of protons, typically beyond uranium, where complex nuclear forces and quantum shell effects confer unexpected stability.