An international team of researchers built a highly sensitive quantum microscope and used it to directly observe, for the ...

Atomic Force Microscopy (AFM) is pivotal in nanoscience, offering high-resolution imaging and manipulation for advancements in semiconductors and life sciences.

A recent breakthrough reported by Argonne National Laboratory in the United States has provided ...

Who said that a smartphone gadget has to be a fish-eye lens? Why not turn your smartphone into a pest repellent, or perhaps ...

A team led by LMU physicist Dmitri Efetov has developed a new device capable of directly observing hidden electron interactions in graphene at room temperature.

Argonne and Northwestern University scientists teamed up to understand how light interacts with metallic nanoframes, with implications for biosensing, quantum information science and beyond.

Scientists developed a new device capable of directly observing hidden electron interactions in graphene at room temperature.

A dark point inside a wave of light sounds like a contradiction. It is also something researchers say they have now viewed in real time, moving so quickly that, by one measure, it outran light itself.

Scientists at Oregon Health & Science University have uncovered a previously unknown system of internal “trade winds” that ...

A set of new imaging tools now allows researchers to see how specific fat molecules, called phospholipids, are distributed ...

From outer space to the human brain, Tufts University’s research labs explore various fields of science to uncover new ...