Nickel and nitrogen co-doped carbon (Ni-N-C) catalysts have shown exceptional performance in converting CO2 into CO, a ...

Imagine being able to adjust the surface of a material with atomic-scale precision using just a laser. What sounds like science fiction has now become reality, thanks to groundbreaking research ...

Oregon State University scientists have found a way to more than double the uptake ability of a chemical structure that can ...

At the cutting-edge Facility for Rare Isotope Beams, researchers have precisely measured the mass of aluminum-22, revealing ...

A study has unveiled new insights into the electrocatalytic reduction of CO2 using nickel-based catalysts. The research marks a significant advancement in the quest for sustainable and efficient CO2 ...

Scientists demonstrate how atomic size differences control metal catalyst structure at nanoscale, achieving major ...

The Facility for Rare Isotope Beams achieved the highest-power beam of uranium ions ever in the world. "We're already now in ...

A study published in Physical Review Letters by the Interface Science Department at the Fritz Haber Institute has unveiled ...

A study published in Physical Review Letters by the Interface Science Department at the Fritz Haber Institute has unveiled new insights into the ...

Nuclear scientists have developed a new theoretical approach that offers a more precise calculation of the 3D motion of ...

In this work, we report on method development and mechanical structure–property analysis of nanostructured networks of porous carbon using an all-atom molecular dynamics simulation approach. The goal ...

facilitating ab initio unit cell determination and atomic-scale structure solution.