For many decades, the method to obtain atomic-level descriptions of chemical compounds and materials—be it a drug, a catalyst ...

A novel apparatus at the U.S. Department of Energy's (DOE) Argonne National Laboratory has made extremely precise ...

If you break open a chicken bone, you won’t find a solid mass of white material inside. Instead, you will see a complex, ...

Deep beneath the Baltic Sea lies a structure that looks engineered—but no one knows by whom. Some say it’s Atlantis. Others say it’s alien. We explore the facts, the dives, and the speculation.

Condensed-matter physics and materials science have a silo problem. Although researchers in these fields have access to vast amounts of data – from experimental records of crystal structures and ...

For the last three years, the story of artificial intelligence (AI) has been a story about silicon. Investors have poured ...

Matlantis CSP has already produced early results across multiple systems—oxides, alloys, and phosphides—discovering more than 10 previously unknown stable crystals. In the Ga–Au–Ca system, it ...

Beauty R&D is shifting toward “materials intelligence,” using AI and atom-level simulation to model ingredient interactions, cut trial-and-error, reduce waste, and speed the development of safer, ...

LiquidChain operates from a different layer of the stack. Instead of focusing on trading access, it focuses on how liquidity ...

Researchers have quantitatively assessed the impact of extreme laser fields, expected to be achievable in the near future, on the half-lives of deformed nuclei undergoing cluster radioactivity. The ...

The Flagship Pioneering spinout uses permanent bonds to target shallow pockets, drastically expanding the druggable universe for small molecules.

The most precise clocks ever built are now testing Einstein, hunting dark matter, and reshaping how we define time itself. In A Nutshell The world’s most precise clocks are changing how we understand ...