From silkworm to super material Researchers fuse silk fibers into high-performance solids that are almost as tough as Kevlar.

A new review details how covalent organic frameworks form continuous proton channels in fuel cell membranes, boosting ...

A programmable metasurface stamps temporal codes onto ambient radio waves, enabling passive radar to detect and track drones ...

Goldstone modes were directly observed for the first time in twisted tungsten diselenide, revealing charge-neutral ...

Researchers are developing scalable, efficient and lower-cost electrolysis materials to make green hydrogen production more ...

High-throughput process produces uniform layers on textured silicon cells. Fast, solvent-free vacuum process for tandem solar ...

AI-powered real-time sensing detects bacteria via volatile chemical fingerprints, enabling faster infection diagnosis and ...

Nanoarchitectonics uses fluorine from PFAS to rebuild spent lithium-iron phosphate cathodes into high-capacity composite ...

By processing data on site rather than in distant cloud systems, the Vetra AI infrastructure enables faster, safer learning ...

Researchers have developed a nanoscale device that converts low-energy infrared and red light into higher-energy visible ...

A new approach controls low-cost solution processing of perovskites, improving the order of their thin layers for use in ...

New optical fiber uses laser heating and bubble convection to trap thousands of bacteria and nanoparticles in 60 seconds, ...