We all know the ingredients for water. You take two atoms of hydrogen and one of oxygen, moosh them together just so, and voila – you have a molecule of the most important compound to life on Earth.

TL;DR: Researchers from Northwestern University have observed the formation of a water molecule on the nanoscale for the first time. Using palladium to catalyze the reaction, they witnessed hydrogen ...

Matthew Fuchter, who develops novel molecular systems at the University of Oxford, calls this “an exciting study [that] ...

Researchers have analyzed the stepwise hydration of prolinol, a molecule widely used as a catalyst and as a building block in ...

Have you ever wondered what it looks like when a water molecule forms? Well, now you can finally see it in action, as scientists captured a molecular-scale video of that very famous meeting when ...

Water molecules, through their versatile bonding and dynamic behaviour, mediate a myriad of physical, chemical and biological processes. This overview discusses the complex interplay between the ...

Water, a molecule essential for life, has unusual properties -- known as anomalies -- that define its behavior. However, there are still many enigmas about the molecular mechanisms that would explain ...

WARNING: this video contains incredible macro footage of supercooled water droplets nucleating ice. This video contains incredible macro footage of supercooled water droplets nucleating ice. All ...

Water trapped in between molecules behaves differently than free-flowing water, as it holds more energy. Researchers found that when another molecule displaces that water, the energy that the water ...

Water trapped inside tiny molecular cavities behaves in a surprisingly energetic way, pushing outward like people crammed in an elevator. When a new molecule enters these narrow spaces, the confined ...