Metalenses represent a revolutionary advancement in optical technology. Unlike conventional microscope objectives that rely on curved glass surfaces, metalenses employ nanoscale structures to ...

Understanding the behavior of the molecules and cells that make up our bodies is critical for the advancement of medicine. This has led to a continual push for clear images of what is happing beyond ...

In a cramped, windowless room on the University of California, Berkeley, campus, two bespoke microscopes—each a Swiss Army ...

A powerful new microscope called MOSAIC can film living cells in stunning 3D detail, but scientists now need AI to interpret ...

In a study published in Science Advances, a research team led by Prof. Liu Chengbo from the Shenzhen Institutes of Advanced Technology (SIAT) of the Chinese Academy of Sciences developed a 1.7-gram ...

A new two-photon fluorescence microscope developed at UC Davis can capture high-speed images of neural activity at cellular resolution thanks to a new adaptive sampling scheme and line illumination.

A new computational microscopy technique solves for true high-resolution images without the guesswork that has limited the precision of other techniques. For hundreds of years, the clarity and ...

A classical way to image nanoscale structures in cells is with high-powered, expensive super-resolution microscopes. As an alternative, MIT researchers have developed a single-step technique for ...

Even those who maintain that super-resolution microscopy is a powerful tool of biological discovery have admitted that it may have a bit of an image problem. For example, in a recent review, several ...

In a study published in ACS Nano, researchers from National Taiwan University report a new expansion microscopy strategy ...