Scientists observed charge separation in a solar cell dye, driven by nuclear vibrations, not solvent effects, reshaping views ...

A new dual-microcomb method enables chip-scale devices to measure distances with nanometer accuracy, paving the way for ...

Twisted graphene stores memory by combining strain-induced hysteresis and nonlinear response, enabling reprogrammable, low ...

C60 fullerene, once seen as inert, is shown to actively catalyze CO2 reduction by stabilizing intermediates, advancing ...

Scientists developed a 3D printing method that creates hydrogels with tissue-like properties, paving the way for personalized ...

Researchers report a Cu-based catalyst on graphitic carbon nitride with tunable atomic configurations, revealing that ...

For decades, astrochemists have been looking for sulfur atoms in space and finding surprisingly little of the element that is ...

The observation is based on data from NASA’s Juno spacecraft, which made a historic low orbit flight over Jupiter’s north ...

Scientists found chiral symmetry breaking in crystals that transforms achiral to chiral structures and creates new optical ...

A collaboration of more than 30 teams completed a program on laser powder bed fusion, creating the largest open dataset to standardize materials and optimize 3D printing.

Atomic coordination patterns in bulk materials can predict stable MXene structures, offering a new design framework that ...

A new adaptive surface hides objects from infrared cameras by switching between two modes that match surrounding temperatures ...