Accurate measurement of spectra for Fluorescence Spectrophotometer

A decrease in irradiated light is measured by absorption spectroscopy, while luminescence is observed by the fluorescence method; therefore, the wavelength differs between irradiated and measured light.
The fluorescence method has the advantage of being more sensitive (measurable at a low concentration) and more informative (acquisition of excitation and fluorescence spectra), as compared with the absorption spectroscopy.
However, wavelength characteristics specific to optical components of a fluorophotometer, such as a lamp, may cause differences among devices, and multiple lights such as secondary light, due to the effects of light scattering, may disturb measurement. Here, this is to introduce you a method for correcting (reducing) the differences among devices and a method for eliminating light scattering.

In surface photometry, multiple lights such as secondary light, due to the effects of light scattering, disturb measurement.
A cut filter is effective for eliminating multiple lights.
We utilize the Stoke's principle that fluorescence can be measured at a longer wavelength, as compared with excitation light.
We'll introduce the effects of the cut filter using data obtained for sodium salicylate (powder). Use of a filter (UV35) cuts light scattering, led to a detector, to control the generation of secondary light.

This is data extracted from three-dimensional data. From two dimensional data, the 2^nd light is eliminating.

This is to introduce you the spectrum correction to get the accurate spectrum. Each lamp or detector of a fluorophotometer has its own wavelength characteristics.
Since the measured spectrum data reflects such characteristics, correction is needed to obtain a true spectrum. Here, we show the effects of a spectrum correction kit that generally includes a rhodamine B concentrated solution and a substandard light source.
These are the effects after spectrum correction using data obtained for sodium salicylate (powder). Three-dimensional data varied with the presence or absence of correction, demonstrating the effects of wavelength characteristics.