Cells organize their molecules into distinct functional areas. While textbooks usually refer to membrane-bound organelles ...

Harvard researchers have found that silica, long thought to lack the right properties for optical metasurfaces, can sometimes ...

An unexpected discovery in a Harvard lab has led to a breakthrough insight into choosing an unconventional material, silica, to make optical metasurfaces—ultra-thin, flat structures that control light ...

More antibodies take aim at seeded propagation. New data ties tangle location to deficits in specific cognitive domains. Three first-in-human studies for antibodies targeting different parts of tau ...

In this interview, AZoMaterials speaks with Professor Sarah Haigh, Professor of Materials Characterization at the University of Manchester, about her pioneering work in electron microscopy and its ...

A light pulse redirects electrons in an ultrathin layered material, creating a stable new state without heat or damage and suggesting a low-energy route to faster electronics. (Nanowerk Spotlight) ...

TEM works by accelerating electrons, typically with energies between 80 and 300 kV, and directing them through a specimen thin enough for electron transmission. Because of their very short wavelength ...

South Carolina drivers can say goodbye to the familiar blue license plate and hello to the new SC250 plate honoring the state’s part in shaping the outcome of the Revolutionary War. The South Carolina ...

A new AI model generates realistic synthetic microscope images of atoms, providing scientists with reliable training data to accelerate materials research and atomic scale analysis. (Nanowerk ...