A new microscopy technique allows scientists to see single-atom-thick boron nitride by making it glow under infrared light.

Researchers from Skoltech Engineering Center's Hierarchically Structured Materials Laboratory have developed a new method to ...

Fibrous materials are used extensively in many industries, including biomedicine, energy production, acoustic insulation, and ...

Nanoscale maze-like magnetic patterns form reliably across strained substrates, removing a key bottleneck for faster, more ...

Researchers have developed a method for mapping the orientation and organization of tissue fibers, furthering our ...

Scientists at the University of Oxford demonstrate an approach to interpreting how materials interact with polarized light, ...

Polymer thin-film optical cavities boost the magnetic sensing sensitivity of nanodiamond quantum sensors nearly fivefold ...

Study uncovers key insights about how a new class of antiviral drugs works. Cryo-EM images showed the drugs bound to herpes simplex virus (HSV) protein at nearly atomic detail, while optical tweezers ...

Harvard Medical School researchers have uncovered crucial insights into how an emerging class of antiviral drugs works.

The NANOscientific Symposium Series (NSS) 2025 has successfully concluded its global program, bringing together the ...

For more than a century, brain imaging has been a story of trade-offs: sharp pictures but slow timing, or fast signals with ...

Scientists at the University of Oxford demonstrate an approach to interpreting how materials interact with polarized light, which could help advance ...