Imagine industrial processes that make materials or chemical compounds faster, cheaper, and with fewer steps than ever before ...

Auburn scientists have designed new materials that manipulate free electrons to unlock groundbreaking applications. These ...

Scientists have developed tunable materials that let free electrons move and interact in new ways, opening paths to faster ...

The all-electric Lexus RZ gets a mid-cycle update with a bigger battery, revised electronics, and a new top trim level for ...

When high-energy radiation interacts with water in living organisms, it generates particles and slow-moving electrons that ...

Scientists at Auburn University created a new type of material where electrons can move freely across a solid surface. By arranging these electrons in different patterns, the material could one day be ...

The 1,2-oxaborine scaffold can be converted into a variety of different aromatic rings with relative ease, enabling chemists to vary molecular cores while keeping the peripheral groups mostly the same ...

Inspired by an artist’s stencils, researchers have developed atomic-level precision patterning on nanoparticle surfaces, ...

A light-sensitive polymer changes how it conducts heat and lithium ions by switching molecular order, revealing a path toward ...

The authors describe an interesting approach to studying the dynamics and function of membrane proteins in different lipid environments. The important findings have theoretical and practical ...

As stellarator configurations are challenging to build, most fusion experiments today are tokamaks (a short form for a Russian expression that translates as ‘toroidal chamber with magnetic coils’).