Thousands of meters underground, in the chthonic depths of Earth's crust, scientists have at long last caught solar neutrinos ...

Researchers have discovered how to design and place single-photon sources at the atomic scale inside ultrathin 2D materials, ...

Scientists detect solar neutrinos transforming carbon into nitrogen for the first time, using the SNO+ detector deep underground.

A new study could influence how scientists design diamond-based quantum technologies, including ultra-precise sensors and ...

Skoltech scientists conducted a study that advances research on future batteries. Their paper, published in Small, sheds ...

Scientists finally caught solar neutrinos triggering a rare atomic transformation once thought nearly impossible to observe.

The discovery challenges basic assumptions about how metals solidify In A Nutshell Liquid metal contains stationary atoms: ...

How can market participants gain exposure across the emerging nuclear power ecosystem? This article looks at how the ...

Per- and polyfluoroalkyl substances (PFAS), often referred to as “forever chemicals,” are a very diverse set of organic chemical compounds ...

The definition of PFAS used by EPA continues to threaten public health, as it ignores peer-reviewed literature and scientific ...

Single-atom transition metal-nitrogen-doped carbons (SA M-N-Cs) catalysts are promising alternatives to platinum-based ...

The Atom and the Algorithm: Nuclear Energy and AI are Converging to Shape the Future Writers and futurists have long echoed Alvin and Heidi Toffler’s idea that “the future arrives too fast…and in the ...