The DIGIT imaging tool could enable the design of quantum devices and shed light on atomic-scale processes in cells and tissues.

A new AI model accurately predicts gas adsorption in metalorganic frameworks and explains its results, offering faster, ...

Controlled light masking and tuned platinum catalysts make it possible to volumetrically 3D print silicone devices with open ...

Building on the flexibility mushrooms offer also suggests there are possibilities for scaling up fungal computing, said ...

Astronomers found an ancient planetary system being consumed by white dwarf LSPM J0207+3331, hosting the oldest, most ...

A rapid condensation process creates uniform porous oxides with conductive nanomaterials, boosting lithium storage ...

Plastic waste can be turned into carbon nanomaterials that act as efficient single-atom catalysts for clean energy and water ...

AI-enhanced microscopy is reshaping how scientists study particles, improving accuracy, efficiency, and sustainability from ...

Researchers enhanced lithium detection by adding graphene to solid-contact electrodes, creating more stable, precise sensors ...

Researchers have achieved a breakthrough in solar physics by providing the first direct evidence of small-scale torsional ...

Researchers used high-energy electron irradiation to create atomic defects in nickelate superconductors, clarifying how ...

A soft robotic system uses liquid crystal elastomers to merge shape shifting, gripping, and color change, demonstrating fully ...