Fluorescent and Dyed Particles
Colored and fluorescent activated surfaces for lateral flow diagnostics.
Higher intensity dyed particles to provide superior test sensitivity in qualitative and quantitative lateral flow tests.
ChromoSphere Dyed Particles - Dry
Thermo Scientific* ChromoSphere Dyed Particles are internally dyed polymer particles designed for applications where high visual contrast is desired.
Color-Rich Dyed Carboxylate-Modified Particles
Thermo Scientific* Color-Rich Dyed Carboxylate-Modified Particles provide maximum color and brilliance, as well as immunologically reactive surfaces.
Fluoro-Max Carboxylate-Modified Particles
Thermo Scientific* Fluoro-Max fluorescent particles are made by dyeing OptiLink carboxylate-modified particles with europium chelate and are available in standard 0.1 µm, 0.2 µm, and 0.3 µm diameters.
Fluoro-Max Dyed Blue Aqueous Fluorescent Particles
Thermo Scientific* Fluoro-Max Blue Aqueous Fluorescent Particles are internally dyed microsphere suspensions that feature bright, high contrast colors.
Fluoro-Max Dyed Green Aqueous Fluorescent Particles
The Thermo Scientific* Fluoro-Max Green Aqueous Fluorescent Particles are internally dyed microsphere suspensions that feature bright, high contrast colors.
Fluoro-Max Dyed Red Aqueous Fluorescent Particles
Thermo Scientific* Fluoro-Max Red Aqueous Fluorescent Particles are internally dyed microsphere suspensions that feature bright, high contrast colors.
Fluoro-Max Fluorescent Streptavidin-Coated Particles
Thermo Scientific* Fluoro-Max Fluorescent Streptavidin-Coated Particles allow for a universal binding reagent that simplifies the binding process.
Fluoro-Max Green and Red Dry Fluorescent Particles
Fluoro-Max fluorescent particles emit bright and distinct colors when illuminated by the light of shorter wavelengths which improves their contrast and visibility relative to background materials.
Fluoro-Max Particulate Marker Particles - Green
Thermo Scientific* Fluoro-Max fluorescent particulate markers are effective because they lodge in the capillaries and are easily visualized under fluorescent illumination.
