The surfaces that cells come into contact with can influence how the cells grow, function, and communicate—shaping metabolism ...

"While conventional fluorescence microscopy has been useful for studying cellular structures, it has been limited by the ...

Novel physicochemical approach to optical biosensing that leverages the unique properties of 1DZnO nanostructures. These ...

What do motion detectors, self-driving cars, chemical analyzers and satellites have in common? They all contain detectors for ...

Researchers have used optical and X-ray microscopy to study nanoscale processes in halide perovskite solar cells.

Researchers analyzed accelerometer data from 3,982 adolescents aged 11 to 19 and survey measures of sedentary behavior from 6 ...

Cornell develops the tiniest walking robot, enabling precise imaging and force measurement at the scale of microscopic ...

The fibers, made from white flour and formic acid, average just 372 nanometers in diameter and might find use in biodegradable bandages.

A physics professor, Zeng’s nanomaterials work has applications in quantum information, renewable energy, biomedicine and more.

On the hunt for little things to round out your techy teens holiday gifts? These gizmos and gadgets could be just the things ...

Imagia has announced a significant advancement in optical metasurface technology with the development of Processing Optics, ...

The NanoGripper, a DNA-based nanorobot, rapidly detects and blocks viruses, including COVID-19, and could revolutionize ...