Recent years have witnessed great advances in applying deep learning to improve fluorescence microscopy imaging. However, enhancing the fidelity of image restoration networks and improving their ...

Modern fluorescence microscopy can generate images of living cells as stunning to look at as they are informative to study.

ST. LOUIS, MO, August 20, 2025 - A team of expert scientists led by Kirk Czymmek, PhD, director of the Advanced Bioimaging Laboratory at the Donald Danforth Plant Science Center and Heather E.

Explore strategies for configuring multi-color fluorescence imaging systems to enhance imaging speed and experimental ...

A research team at the University of Tokyo has developed a new microscopy platform that can observe a previously hidden layer of biomolecular chemistry linked to weak magnetic fields. The work, led by ...

Stanford researchers have developed a microscope that can show how nanostructures interact inside living cells at the highest ...

FLIM principles. Schematic overview of fluorescence lifetime data acquisition and analysis in time−domain (td) and frequency−domain (fd) modes. In tdFLIM, photon arrival times are recorded after each ...

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.

Deep inside a small, windowless room at the University of California, Berkeley, two microscopes are quietly capturing some of ...

The brain is the most energy-demanding organ in the body, in part due to its complexity. Its components are varied and intricate: comprising different cell types, including neurons designed to ...