Scientists have found a way to see ultrafast molecular interactions inside liquids using an extreme laser technique once ...

Reshaping graphene from flat sheets into compact particles solves a key manufacturing problem, enabling printable conductive ...

Liquids and solutions may look simple, but on the molecular scale they are constantly shifting and reorganizing. When sugar dissolves in water, each sugar molecule quickly becomes surrounded by fast ...

Liquids and solutions may seem simple, but at the molecular level they are constantly in motion. When sugar dissolves in water, for example, each ...

Graphene has long been hailed as a "wonder material." It is incredibly strong, highly conductive and almost impossibly ...

Anode-free lithium metal batteries, which have attracted attention as candidates for electric vehicles, drones, and ...

An ultrathin polymer layer on electrode surfaces improves the stability of an anode-free lithium metal battery, addressing ...

Anode-free lithium metal batteries, which have attracted attention as candidates for electric vehicles, drones, and next-generation high-performance ...

A theoretical study reveals how functionalized crown ethers selectively capture light gadolinium isotopes, offering a cleaner, more efficient path for nuclear and planetary science applications.

A new study introduces a simple molecular-engineering strategy that dramatically improves the reversibility of zinc plating ...

Scientists are using lasers, satellites and even sound to determine what is falling from the sky—but the best tool may still ...

Nearly invisible and deceptively thin, this ice is one of winter’s deadliest hazards. Here’s how it forms and why it causes ...