Researchers at Ruhr University Bochum, Germany, have shed light on the structure of supercritical water. In this state, which ...

A new study suggests that the first water molecules in the universe may have formed far earlier than previously assumed ...

When exposed to high temperatures and pressure, water enters a state in which liquid and gas can no longer be distinguished.

Supercritical water, a mysterious state where water behaves like both a liquid and gas, has long puzzled scientists.

Splitting water molecules takes more energy than calculations suggest, and is a key roadblock to cheap hydrogen fuel ...

A research team led by Professor Hyung-Joon Shin from the Department of Materials Science and Engineering at UNIST has ...

Water molecules are so attracted to each other that even after the balloon pops, the water molecules stay together keeping the shape of the balloon. In the water molecule, the oxygen and hydrogen ...

Abstract Proton tunneling through a hydrogen bond is a significant quantum phenomenon in proton-mediated processes. Hydrogen ...

The behavior of water at hydrophobic interfaces has perplexed scientists for over a century, spanning chemistry, biology, ...

The ball-and-stick and first space-filling model show that sucrose is a large molecule made up of carbon, oxygen, and hydrogen. Sucrose has many O–H bonds which are polar. These polar areas are shown ...

While previous studies say volcanic or atmospheric lightning may have triggered chemical reactions that created organic ...

A Stanford study shows that electrical charges in sprays of water can cause chemical reactions that form organic molecules from inorganic materials. The findings provide evidence that microlightning ...