The inverted Nikon spinning disk confocal microscope is equipped with four laser lines (405, 488, 561, and 647 nm), 4x-40x air objective lenses, and 60x NA1.40 and 100x NA1.45 oil objective lenses.

A hidden and fantastic universe exists just beyond our sight. Luckily, photos taken through the lens of a microscope help scientists document new lifeforms and unknown structures. The images can also ...

Our new Structured Illumination super-resolution Microscope (SIM) delivers twice the resolution of traditional diffraction limited microscopes (~115 nm lateral and ~300 nm axial) Capabilities: SIM ...

Breakthroughs, discoveries, and DIY tips sent every weekday. Terms of Service and Privacy Policy. Here at Popular Science, we love miniaturism—so much that we ...

The microscope works in two basic modes - epifluorescence and reflection. In epifluorescent mode, the laser excites fluorescence within the sample - this is either natural fluorescence ...

Multiphoton excitation penetrates farther into tissue with less scattering than traditional (single photon) confocal. Another advantage is the restrictied the excitation volume in x-y-z leading to ...

AMSTERDAM--(BUSINESS WIRE)--Nikon Europe B.V. has announced that its first European Nikon BioImaging Lab (NBIL) based in the prestigious Leiden Bio Science Park (LBSP) is now officially open. The ...

This Nikon Ti-U is an inverted widefield epifluorescence microscope with both fluorescence and color imaging (RGB, histology). For fluorescence, this microscope uses an Excelitas Excite 100-watt metal ...