Publication: Understanding water behaviour on 2D material interfaces through single-molecule motion on h-BN and graphene.

Water rolls on h-BN but encounters friction on graphene. Atomic structure and substrate shape nanoscale movement, guiding advances in coatings and anti-icing surfaces.

The reason we can gracefully glide on an ice-skating rink or clumsily slip on an icy sidewalk is that the surface of ice is ...

The next great transformation may be the rise of networked minds, the merging of human and machine intelligence into ...

Researchers find that cosmic dust acts as a catalyst, helping simple space gases form key molecules that may jump-start ...

In a study published in Nature Communications , researchers from Graz University of Technology (TU Graz) and the University of Surrey tested two ...

Two clashing ideas about disorder inside black holes now point to the same strange conclusions, and it could reshape the ...

Water is emerging as one of the most intriguing fuels in energy research, not by burning it, but by harvesting the subtle ...

Insights into water behavior on 2D materials, such as graphene and h-BN, could completely transform surface design for ...

For super-resolution microscopes, AI helps by restoring images from even noisy, low-fluorescence data. That capability helps ...

New research shows that tiny light patterns and faint radio signals reveal the earliest moments before an aurora suddenly ...

Sweat is turning into one of medicine’s most revealing data streams, and artificial intelligence is learning how to read it.