A team at UNIGE has uncovered a geometric structure once thought to be purely theoretical at the core of quantum materials, opening the door to major advances in future electronics. How can ...

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

Electrons can be elusive, but Cornell researchers using a new computational method can now account for where they go—or don't ...

A new study, published in early November in Nature Physics, details a breakthrough in understanding the dynamics of halide perovskites, revealing insights crucial for advancing optoelectronics ...

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

Scientists have finally glimpsed chemistry at its smallest level after capturing the first-ever X-ray of a single atom. Atoms are the tiniest particles in our universe, and they're the basic ...

A titanium-based metal-organic framework achieves record electron storage density among MOFs and releases these accumulated ...

When two hydrogen atoms get close enough, the electron from each atom feels an attraction from the proton in the other atom's nucleus. This attraction pulls the atoms together. The electrons end up ...

Atomic-scale imaging emerged in the mid-1950s and has been advancing rapidly ever since—so much so, that back in 2008, physicists successfully used an electron microscope to image a single hydrogen ...