Product Description
Manufacture Specification
Multiple detection modes greatly reduces the time needed to develop fluorescence detection methods by quickly determining wavelength maxima
Innovative, axially-illuminated flow cell designed for less dispersion, less stray light, less volume, and more pathlength for maximum sensitivity
Three-dimensional spectral scanning for faster method development and optimization, and enhanced peak identification
Single or multi-channel operation monitors fluorescence at one or more discrete wavelength pairs
Low noise performance – less stray light due to orthogonal optics and the use of mirrors, not lenses, minimize scatter
Integral erbium calibration reference – ensures wavelength accuracy
Multiple detection modes – 2D, 3D, and on-the-fly spectral scanning
Low-dispersion system solution compatible with a wide range of column dimensions
Normalized emission units for better bench-to-bench reproducibility
Multiple detection modes greatly reduces the time needed to develop fluorescence detection methods by quickly determining wavelength maxima
Innovative, axially-illuminated flow cell designed for less dispersion, less stray light, less volume, and more pathlength for maximum sensitivity
Three-dimensional spectral scanning for faster method development and optimization, and enhanced peak identification
Single or multi-channel operation monitors fluorescence at one or more discrete wavelength pairs
Low noise performance – less stray light due to orthogonal optics and the use of mirrors, not lenses, minimize scatter
Integral erbium calibration reference – ensures wavelength accuracy
Multiple detection modes – 2D, 3D, and on-the-fly spectral scanning
Low-dispersion system solution compatible with a wide range of column dimensions
Normalized emission units for better bench-to-bench reproducibility
