Explore how correlative light and electron microscopy (CLEM) enables high-resolution insights into endocytic sorting.

This review outlines the potential of smart microscopy to transform biological imaging through adaptive systems that optimize data collection and image quality.

Most space missions rely on chemical rockets for propulsion. Rockets must carry fuel, which increases spacecraft mass and limits their speed and travel distance. For decades, researchers have explored ...

Controlling light with light is a long-sought goal for computing and communication technologies. Achieving this capability ...

Harvard University researchers have developed a cathodoluminescence-based multicolour electron microscopy technique that ...

Scientists have successfully tested a material design for light sails using photonic crystals that could achieve 20% the speed of light ...

Blue light, a sheet of filter paper, and a stubborn class of industrial chemicals do not sound like much of a match. Yet that ...

The researchers at Tuskegee University, Alabama, reported their work in the Journal of Nanophotonics, confirming that they developed a photonic crystal light sail designed to address these limitations ...

Super-resolution microscopy includes a variety of microscopy techniques that increase the resolving ability of a light microscope well beyond the classical limits dictated by the diffraction barrier.

According to conventional wisdom, the compound microscope was invented at the beginning of the seventeenth century and made possible the immediate discovery of cells. This is nonsense. The textbook ...

Most space missions rely on chemical rockets for propulsion. Rockets must carry fuel, which increases spacecraft mass and limits their speed and ...

A new leaf imaging system lets scientists watch plant stomata control water loss and carbon uptake in real time.