Researchers investigating atomic-scale phenomena impacting next-generation electronic and quantum devices have captured the first microscopy images of atomic thermal vibrations - revealing a new type ...

Researchers grow single-crystal GaN films on amorphous glass using a chemically converted molybdenum nitride buffer, removing ...

Researchers have developed a 'self-driving' microscope that can predict the onset of misfolded protein aggregation - a ...

Researchers develop a recyclable sulfur-based polymer that enables 4D printing of soft robots with programmable shape changes ...

Researchers created an ultra-thin optical array that controls photons like bulky quantum devices, offering a scalable path to ...

Researchers develop a simple method to build stable, atom-thick metal layers using tiny defects in carbon, enabling efficient ...

A new artificial intelligence model can improve the process of drug and vaccine discovery by predicting how efficiently ...

Researchers converted layered MXenes into chemically bonded solids using metal intercalation, boosting thermal stability and ...

Researchers have established a framework for the design of bioactive injectable hydrogels formulated with extracellular ...

Physicists use ultrashort light pulses to control atomically thin semiconductors, enabling faster optoelectronic components ...

Electron beam method enables high-yield graphdiyne synthesis in seconds under ambient conditions, offering a fast route to ...

Spin waves have been directly observed at the nanoscale using a high-resolution electron microscope, enabling new ways to ...