Adding iron to a copper-based propellant MOF simultaneously solves its water stability problem and boosts laser propulsion ...

Concentrated rivers of current create flickering hotspots in conventional amorphous OLEDs, but crystalline designs may not have this problem.

Chronic wounds, including diabetic ulcers and pressure sores, can linger for months or even years.

Engineered multilayer bismuth ferrite films achieve piezoelectric performance four times higher than conventional forms at ...

Instead of using more and more concrete and steel, a research team is focusing on intelligent shapes, digital manufacturing, ...

The complete set of nucleobases found in terrestrial DNA and RNA have been detected in samples returned from the asteroid Ryugu, offering insights into the early Solar System's chemistry.

A new printing technique places perovskite photodetectors on contact lenses, and AI upscaling turns 100 sparse pixels into an eye-tracking interface for robotic control.

Researchers defy expectations by creating quantum bits from perovskite materials, once thought too unstable, opening a new field toward functional quantum computers.

Light-controlled hydrogel mimics real tissue mechanics, warming cells behave naturally, advancing drug testing and disease modeling.

Researchers designed a new superconducting material that works at higher temperatures and withstands strong magnetic fields.

A new neuromorphic device controls hydrogen ions to mimic synaptic learning and memory, achieved for the first time in a vertical two-terminal architecture.

Chemists grew the longest conductive polymer chains ever made on a surface, nearly one micrometer long, using a clean process that enables precise nanoribbons.