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

They can make tiny cell structures visible: cutting-edge light microscopes offer resolutions of a few tenths of a nanometer -- in other words, a millionth of a millimeter. Until now, super-resolution ...

The development of microscopy and photonic techniques has enabled progress across a wide variety of research fields, mainly in the life sciences, where advanced microscopy has increased the contrast, ...

A light-powered microscope has a resolution limit of around 200 nanometers—which makes observing specimens smaller or closer together than that all but impossible. Engineers at the University of ...

Researchers have developed a new method for rapid 3D imaging. Instead of having to scan repeatedly in 2D, the researchers proposed a one-scan technique that uses a light needle to process at depth and ...

In biology, seeing can lead to understanding, and researchers in Professor Edward Boyden's lab at the McGovern Institute for Brain Research are committed to bringing life into sharper focus. With a ...

Researchers have demonstrated a quantum microscope that can break through a fundamental barrier faced by regular microscopes and see tiny structures that are normally invisible. The device “squeezes” ...

The Zeiss LightSheet Z.1 is a stand-alone SPIM (Side Plane Illumination Microscope) capable of imaging large, living specimens at much greater speeds than more traditional confocal technology. It is ...