Stable isotope analysis developed by wildlife forensic scientists can tell apart ivory from mammoths dug up from permafrost ...

Why did they form at that time? Astronomers know from observing distant exploding stars that the size of the universe has ...

A recent study has uncovered that giant magnetar flares may play a key role in generating rare elements such as gold and uranium, reshaping our understanding ...

For years, astronomers puzzled over the mystery of where the heaviest elements in the universe—like gold, uranium, and ...

Simulations reveal previously unknown 2D phthalocyanine monolayers combining structural stability, high mobility, and direct ...

As the world celebrates the 2025 International Year of Quantum Science and Technology, it’s natural that we should focus on ...

Researchers at Umeå University have identified the inner workings of a highly efficient and stable catalyst for hydrogen ...

Markus Koch's team at TU Graz has pioneered real-time monitoring of atom clustering, highlighting energy pooling and its ...

For more than 30 years, physicists have wrestled with gallium’s structure in the liquid state. Now, fresh simulations offer ...

Natanz, Isfahan and Fordow, killing several Iranian nuclear scientists. The facilities are heavily fortified and largely ...

According to a new study, magnetars—a rare type of neutron star—may have forged some of the first heavy elements in the universe, based on evidence found buried in 20-year-old data.

There are over 100 different types of atoms, and materials can be classified into elements, compounds, and mixtures based on their atomic composition.