Carbon nanotubes can open and close in response to acidity, guiding water and ions one by one and mimicking how natural cell ...

Aircraft wing-shaped structures inside tiny channels produce consistent drug delivery particles at any scale, from small laboratory tests to factory production, while substantially cutting costs.

A hybrid graphene and molybdenum trioxide crystal allows real time electrical tuning of Bloch modes and light emission, ...

Researchers adapted ARPES to work in magnetic fields using nanoscale alternating magnets that confine fields near a sample, letting photoelectrons travel straight.

Heat limits sub-10 nm chips, but current tools miss nanoscale effects or run too slowly. New modeling bridges atom-level ...

A semiconductor device generates unforgeable watermarks from chaotic electron behavior, embedding invisible markers in images ...

A new web-based tool visualizes catalyst gene profiles, helping scientists explore patterns and improve catalyst design.

By changing the physical structure of gold at the nanoscale, researchers can drastically change how the material interacts with light and, as a result, its electronic and optical properties.

Ultrathin titanium flow distributors made via laser micromachining achieve record fuel cell power densities, surpassing European aerospace targets set for the end of this decade.

Researchers turn discarded cigarette butts into carbon electrodes for supercapacitors, achieving high energy density, fast charging, and long-term stability from toxic waste.

Researchers developed a vortex method to dry non-aggregated cellulose nanofibers from slurry, offering a more efficient, ...