Scientists have created 3D printed surfaces featuring intricate textures that can be used to bounce unwanted gas particles ...

This quantum material has been theoretically predicted for more than a decade but had remained inaccessible due to materials challenges.

By adjusting the speed of the laser in a high-entropy alloy, researchers discovered a method to guide how the atoms settle as the metal solidifies, controlling the material's properties directly at ...

A new electrolysis technique could make an important contribution to the electrification of the chemical industry.

A laser-programmed strategy to engineer the local stiffness and interfacial properties of textiles enables the direct assembly of standard electronic components onto textiles to create stretchable ...

A new perspective describes engineered nanoparticles that target and degrade disease-causing proteins, opening new ways to treat dementia, brain cancer, and other conditions.

PI introduces miniaturized alignment engine platform for scalable, parallel E/O wafer-level test Parallel piezo aligners with fly height sensors enable faster PIC wa ...

Initially stacked benzene layers increase fluorescent color change drastically when exposed to pressure, suggesting new ways to design the pressure sensors used in machinery and medical devices.

The study highlights a novel engineered crystalline membrane, whose one-nanometre gateways act as a high-precision sieve, ...

Astronomers using the Gemini South telescope achieve unprecedented detection of vaporized metals within a dusty, gaseous ...

Webb data show crystalline silicates form near young stars, then travel via outflows from hot inner disks to cold regions, ...

Cancer cells have softer membranes than healthy cells. New nanoparticles exploit this physical difference to fuse selectively ...