Hydrogen bonding is a fundamental non-covalent interaction that influences the structure, function and dynamics of molecular assemblies across chemistry and biology. Conventionally, such bonds involve ...

Researchers have developed a new catalyst that could make hydrogen production cheaper and more practical for renewable energy ...

A research team has successfully developed a new approach to create switchable magnetic materials by using hydrogen bonding at the molecular level. This groundbreaking study shows how certain metal ...

Hydrogen bonding represents a cornerstone of molecular recognition, assembly and reactivity across chemistry, biology and materials science. Dynamic aspects of hydrogen bonding encompass the continual ...

At first glance, the ice cube in your soft drink and the smell of grandma’s famous egg salad don’t seem to have much in common. From a chemical point of view, however, the underlying molecules water ...

A team of researchers led by Gang Wu created a new energy-efficient catalyst using two phosphides to split hydrogen from water. The image on the left shows the dry cathode anion-exchange membrane ...

H 2 S is one of the most fundamental sulfur-bearing molecules in interstellar space and plays a vital role in various biological processes in mammals. Although the chemical community has studied H 2 S ...

Heavy water's stronger hydrogen-bond network lowers ion desolvation energy in a zinc-copper Daniell cell, enabling uniform ...