Line-Scanning Microscopy for Time-Gated and Spectrally Resolved Fluorescence Imaging

## Abstract Time‐resolved luminescence (TRL) microscopy can image signals from lanthanide coordination complexes or other probes with long emission lifetimes, thereby eliminating short‐lifetime (<100 ns) autofluorescence background from biological specimens. However, lanthanide complexes emit far f

A technique is described to modify a standard fluorescence microscope for time-resolved visualization of delayed luminescing substances with decay times from 50 ps to several milliseconds. The modification consists of synchronized operation of a mechanical shutter, positioned in an aperture plane in

This paper describes a rapid and simple method for obtaining epon-embedded specimens for light and electron microscopy from a cell monolayer grown on a culture dish. The cells are washed and fixed in situ with glutaraldehyde, post-fixed with osmium tetroxide, and dehydrated in a series of ethanol. A

We describe time-resolved optical methods that use diffuse near-infrared photons to image the optical properties of tissues and their inner fluorescent probe distribution. The assembled scanner uses picosecond laser diodes at 4 wavelengths, an 8-anode photo-multiplier tube and time-correlated single

Scanning probe microscopy is opening new applications in magnetic engineering due to superior resolution limits without any sample preparation under ambient conditions. In this paper we report time-resolved magnetic stray Ðeld measurements based on a new type of probe to characterize magnetic Ðelds.