New printing technique creates seamless transitions between soft and rigid materials at microscopic scales, enabling ...

Researchers have identified the origin of the restoring force that lets elastic crystals return to their original shape.

New metasurfaces with nanoantennas could replace lenses and enhance AR, VR, LiDAR, and more by precisely controlling light.

Researchers developed a scalable, low-cost device that can generate high-power terahertz waves on a chip, without bulky ...

Researchers used a 3D printing technique to fabricate high-performance thermoelectric materials, reducing production costs ...

Researchers found that 40% of molecular clouds in the Small Magellanic Cloud are 'fluffy', offering new insights into early ...

New gas detection system combines organic sensors with AI to identify complex gas mixtures and nearly identical compounds ...

Two waves are coherent when there is a meaningful relationship between their phases or when their interference creates a well ...

Carbon nanotubes can emit light that has a greater energy than light shone on them - now researchers think they understand ...

Physicists found a new way to control correlated states in twisted double bilayer tungsten diselenide, paving the way for ...

The study provides a first experimental look at the principle of microscopic reversibility in molecular devices.

Researchers have turned abundant natural materials like cellulose into powerful hydrogels that capture water from air, ...