A new dual-light microscope lets researchers observe micro- and nanoscale activity inside living cells without using dyes.

Researchers at the University of Tokyo have built a microscope that can detect a signal over an intensity range 14 times ...

Scientists developed an automated, high-throughput system that relies on imaging biofluid droplets for disease diagnosis, reducing the number of consumables and equipment needed for biomedical testing ...

Microscopy has advanced significantly over the centuries, but modern tools still face trade-offs. Quantitative phase ...

The Duchess of Sussex,” someone in the scrum announces. Meghan descends, dressed in wide-leg trousers, a silk blouse, and a ...

ComSLI takes advantage of how the orientation of the fiber network influences the scattering behavior of incident light. By rotating the direction of the light and recording how the scattering changes ...

Many paleontologists believe that the shape of fossilized pigment containers in cells can help determine dinosaur colors. But some remain skeptical.

Deep in some of Earth’s oldest rocks, traces of ancient life still linger, even when every cell has crumbled. You would not ...

Dermatologists explain the science behind wildly popular treatments like red light therapy, which is now available at home—for a steep price. Full-face LED masks like this one can cost up to several ...

A new microscope from the University of Tokyo captures both micro and nano structures without dyes. It reveals a clearer and ...