Nikon Microscope with Yokogawa CSU-W1 SoRa Spinning Disk Confocal
Nikon Healthcare Business – Microscope SolutionsSpinning Disk Super Resolution at high speed.
Materials analysis examines the properties, composition, and behavior of materials at a microscopic and macroscopic level. Using advanced techniques such as microscopy, spectroscopy, and chromatography, materials analysts investigate the structure, purity, and performance of various substances. From industrial materials and nanomaterials to battery testing and beyond, this field provides critical insights into the characteristics and applications of materials across industries such as manufacturing, electronics, and healthcare. Explore how materials analysis drives innovation, quality assurance, and product development for a wide range of applications.
Spinning Disk Super Resolution at high speed.
The CSU-W1 is a high speed spinning disk with a large field of view and high image quality.
The DeepSIM X-Light super-resolution module can easily be integrated with the X-Light V3 spinning disk confocal system to provide enhanced imaging of sub-cellular structures and to examine live-cell dynamics, with an XY resolution of 100 nm, without requiring any special sample preparation or dyes.
For high-end microscopy applications, the X-Light V3 relies on the cutting-edge technology, optical design and engineering solutions developed by CrestOptics.
High-speed, large field of view spinning disk confocal imaging.
An ultra-stable platform for performing precision manipulation procedures such as ICSI.
Nikon's inverted routine microscope featuring a compact footprint, newly developed contrast observation method and improved operability, ideal for the tissue culture lab.
The completely customizable BioFlux solution for ultimate imaging flexibility
The most affordable BioFlux solution for your cellular analysis research
Nikon’s newest confocal microscope with unparalleled resolution, speed, sensitivity and field of view, with AI-based tools for simplifying acquisition and analysis.