Researchers at Cornell University have developed a powerful imaging technique that reveals atomic scale defects inside computer chips for the first time. Using an advanced electron microscopy method, ...

An international team of scientists from IBM, The University of Manchester, Oxford University, ETH Zurich, EPFL and the University of Regensburg have created and characterized a molecule unlike any ...

The semiconductor chips driving modern-day computer processors are covered in billions of individual transistors, each of ...

Alberto Corigliano introduces the ERC Advanced Grant project IMMENSE, which aims to overcome the challenge of developing ...

An international team of researchers at University of Manchester have created and characterised a molecule with properties never previously observed, using quantum computing to confirm its unusual ...

Here at the University of Connecticut, the College of Engineering’s annual poster competition displayed over 100 posters on the wide array of research engineering graduate students have been working ...

NYU researchers have found a way to use light to control how microscopic particles assemble into crystals, effectively ...

HONG KONG SAR - Media OutReach Newswire - 5 March 2026 - Sea urchin spines are not only for defence—they also act as natural sensors. A research team led by Prof. WANG Zuankai, Associate Vice ...

When Richard Feynman first conceived of quantum computers in the 1980s, he believed they should primarily investigate quantum phenomena. So that’s what a group of chemists did: they used quantum ...

A stunning new imaging breakthrough lets scientists see — and fix — the atomic flaws hiding inside tomorrow’s computer chips.

The molecule, with the formula C13Cl2, was assembled atom-by-atom at IBM from a custom precursor synthesized at Oxford University, with individual atoms removed one at a time using precisely ...

A ring of 13 carbon atoms and two chlorine atoms has a remarkable molecular structure that means you would have to go around the loop four times to return to your starting position ...