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With the Calibration Kit Spectral Fluorescence Standards BAM-F001BAM-F005, we developed a simple
tool for the characterization of the relative spectral responsivity and the long-term stability of the emission channel of
fluorescence instruments under routine measurement conditions thereby providing the basis for an improved comparability
of fluorescence measurements and eventually standardization. This first set of traceable fluorescence standards,
which links fluorescence measurements to the spectral radiance scale in the spectral range of 300770 nm and has been optimized for spectrofluorometers, can be employed for different measurement geometries and can be adapted to different fluorescence techniques with proper consideration of the underlying measurement principles.
The need for the traceable characterization of fluorescence instruments is emphasized from a chemists point of view, focusing on spectral fluorescence standards for the determination of the wavelength- and polarization-dependent relative spectral responsivity and relative spectral irradiance of fluorescence measuring systems, respectively. In a first step, major sources of error of fluorescence measurements and instrument calibration are revealed to underline the importance of this issue and to illustrate advantages and disadvantages of physical and chemical transfer standards for generation of spectral correction curves. Secondly, examples for sets of traceable chemical emission and excitation standards are shown that cover a broad spectral region and simple procedures for the determination of corrected emission spectra with acceptable uncertainties are presented. With proper consideration of the respective measurement principle and geometry, these dye-based characterization procedures can be not only applied to spectrofluorometers but also to other types of fluorescence measuring systems and even to Raman spectrometers.