For more than a century, schoolbook physics has divided matter into neat categories like solid, liquid, gas, and plasma. A ...

Researchers have clarified the mechanisms by which energy loss is locally maximized at a certain rotational speed in ...

A joint team from UOsaka has uncovered the core principles of the loss maximization in rotor-driven gas-liquid two-phase ...

Scientists unveil a solid electrolyte that moves lithium as fast as liquids, promising safer, fast-charging batteries.

Without cooling, data centres fall over. In November, a cooling system failure at a data centre in the US sent financial ...

This article explores how rheological analysis helps the food industry link microstructure to texture, stability and ...

Water behaves 100,000 times better electrically in ultrathin channels, transforming chemistry in cells and advanced materials ...

This detailed overview explains the technical mechanisms of LC-MS proteomics, including peptide separation, ion generation, ...

Scientists used a 3D-printing approach to pattern hydrophobic barriers inside hydrophilic filter paper. These barriers, designed in different geometries, guide liquids along precise paths and shape ...

Artificial intelligence can transform healthcare workflows, but it is energy intensive, and organizations need to be prepared for a change in energy needs.

Chemists have developed a new charge-carrying molecule that possesses liquid-like conductivity even in the solid state ( ...

By firing tiny projectiles of iron-carbon alloy from a high-speed cannon, scientists have finally demonstrated that a weird ...