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

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

Now, Duy Khanh Nguyen, who was based at the RIKEN Center for Emergent Matter Science at the time of the study, and co-workers ...

Twisted 2D bilayers show angle dependent atomic vibrations, revealing how misalignment affects heat flow and aiding design of ...

Zinc oxide nanoparticles boost lipid production in Chlorella vulgaris, enhancing its potential as a biofuel source.

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

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

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

Researchers achieve quantum confinement without shrinking materials by engineering a COF with confined excitons, enabling ...

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

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

Scientists developed a method combining effective theory and duality transformations to simplify and solve complex quantum systems with strong interactions.