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

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.

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

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.

A study shows that polarons can host stable atomic distortion patterns, reshaping how charge and energy move in materials ...

Molecular electronic devices using quantum tunneling could achieve integration densities 1,000 times greater than silicon chips by combining atomic-precision assembly with three-dimensional ...

Freeze-dried hydrogel powders sprayed onto wet surfaces merge into functional coatings in under five seconds, enabling rapid ...

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

Researchers unveil an optofluidic laser method that assembles micro- and nanoparticles in liquid, enabling multi material 3D ...

Physicists found why holes move slower than electrons in silicon: not defects, but higher intrinsic mass, supporting ...

A vibration-powered CFRP composite with piezoelectric nanomaterials detects internal cracks via electrical changes, enabling ...

Vertical graphene microstructures break the thickness-performance tradeoff in thermoacoustic speakers, enabling flexible ...