Scientists directly observed dark excitons in atomically thin materials, revealing how they evolve and paving the way for ...

Calcium transforms silk hydrogels into a versatile platform that prints precisely, stores for months, and fuses after ...

A gap-controlled infrared technique makes it possible to study molecular interfaces with high sensitivity using affordable, ...

A magnetic microrobot navigates lung airways, drills microlesions, gathers biomarkers, and rapidly classifies cancer tissue ...

A solar emulsion evaporator built with graphene oxide and carbon nanotubes adapts to oil, salt, and microbes, maintaining ...

Ultrathin solar cells save material and bend on surfaces but lose light. A gold nanostructured mirror with oxide boosts ...

Astronomers observed a rogue planet devouring gas and dust at six billion tonnes per second, the fastest growth ever recorded ...

Researchers developed a new membrane that selectively filters out lithium from brines, offering a faster, cleaner way to ...

Researchers show AI can tackle complex environmental issues, from material screening to pollution modeling and health risk ...

Breakthrough results in first fluorescent sensors capable of detecting glycine dynamics inside living cells at single-cell ...

The structural properties in the mycelium of a common soil mold show promise in biomedical applications, such as hydrogels ...

SiM, an AI foundation model that can analyze vast datasets to track the behavior of single molecules across many experiments.