Carbon is a gregarious little atom, bending over backwards to link with a wide variety of elements in what is collectively ...

For the first time, researchers have observed how bromoform rearranges its atoms in less than a trillionth of a second after ...

Typically, molecules considered for quantum applications aren’t as big as Buckminsterfullerene. “The overwhelming majority of ...

Changing an atom in a molecule using light? This South Korean scientific breakthrough could revolutionize the pharmaceutical industry. Replacing a single atom in a molecule without altering the others ...

A new study challenges traditional spin-statistics assumptions in ion-atom charge exchanges, revealing unexpected dynamics in C3+ and helium collisions and opening new avenues in quantum reactivity.

New research reveals how parrots and finches develop their extraordinary colours – and shows that evolution is an ongoing ...

Nearly all birds with bright red, orange, and yellow feathers or bills use a group of pigments called carotenoids to produce ...

Seawater electrolysis has long been seen as a promising pathway for sustainable hydrogen production but has faced significant ...

Nuclear fission has powered our world and medical advancements for decades. What exactly happens when an atom's nucleus splits into two parts?

In a recent article, researchers presented an iridium single-atom catalyst coordinated with cobalt–iron hydroxides, showing enhanced performance for oxygen evolution reactions (OER). This catalyst ...