Researchers at the Institute for Molecular Science (IMS) have definitively resolved a two-decade-long controversy regarding ...

Quantum computers have the potential to solve certain calculations exponentially faster than a classic computer could, but ...

Power, performance, and area metrics alone are no longer sufficient to capture the full range of design goals.

A light pulse redirects electrons in an ultrathin layered material, creating a stable new state without heat or damage and suggesting a low energy route to faster electronics.

A straightforward asymmetric strategy has led to the creation of elusive nitrogen stereocentres. The carefully designed ...

Quantum computers have the potential to solve certain calculations exponentially faster than a classic computer could, but more research is ...

The addition of BCF in perovskite synthesis boosts solar cell performance and stability, accelerating the advancement of ...

Supercomputers are rewriting the rules of quantum-materials science — one exaflop at a time. Quantum materials promise faster ...

Researchers from the Department of Molecular Physics at the Fritz Haber Institute have demonstrated the first magneto-optical ...

The atypical structure of the radium monofluoride molecule allows physicists to search for answers to some of the universe’s ...