A team at EPFL and the University of Arizona has discovered that making molecules bigger and more flexible can actually ...

Computational study shows how apical carbons in propellanes and pyramidanes can form hydrogen, halogen, chalcogen, pnictogen ...

Researchers from the Max-Planck-Institut fuer Kernphysik present new experimental and theoretical results for the bound ...

Lone Star Funds is planning to return $3.5 billion to its investors in the coming weeks, according to people familiar with the matter, at a time when private equity firms face pressure to deliver ...

Researchers record ultrafast chorus dance of electrons on super-small particle Date: February 18, 2025 Source: DOE/SLAC National Accelerator Laboratory Summary: It may be the smallest, shortest ...

Discovered antiferromagnetic order, multiple phase transitions, and low cleavage energy in a unique metallic compound with active, non-bonding electrons. Provides a platform to study magnetism, ...

There’s the pure mystery of how it happens: The phenomenon requires electrons ... Cooper pairs can all come together into a coherent quantum entity in a way that lone elections can’t.

There’s the pure mystery of how it happens: The phenomenon requires electrons ... forming a “Cooper pair.” Cooper pairs can all come together into a coherent quantum entity in a way that lone ...

Scientists have observed an unexpected new behavior in a superconducting material. If physicists can figure out the cause, it could help them to find room-temperature superconductors. Scientists ...

But instead, something strange happens: the electrons become bound together into a "Cooper pair." Cooper pairs follow different quantum mechanical rules than those of lone electrons. Instead of ...

As a result, the lone pair electrons in a molecule occupy more space as compared to the bonding pairs of electrons. This results in greater repulsion between lone pairs of electrons as compared to ...