Fluorescence intensity and quantum yield reference materials for standardization of fluorescence-based measurements
- Luminescence techniques are amongst the most commonly used analytical methods in life and material sciences due to their high sensitivity, nondestructive character, and easy instrumentation suitable for miniaturization. Photoluminescence signals are, however, affected by wavelength-, polarization-, and time-dependent instrument-related effects. Thus, at the core of standardization approaches for all fluorescence-based techniques are evaluated fluorescence standards for the consideration of instrument-specific spectral and intensity distortions of measured signals and for instrument performance validation (IPV).
Here, we summarize the research of BAM division 1.2 on development of liquid and solid fluorescence standards for various application-relevant fluorescence parameters and techniques. The portfolio of BAM fluorescence reference materials presently consists of:
i) a Spectral Fluorescence Standard Kit, i.e., a set of liquid fluorescence standards with certified normalizedLuminescence techniques are amongst the most commonly used analytical methods in life and material sciences due to their high sensitivity, nondestructive character, and easy instrumentation suitable for miniaturization. Photoluminescence signals are, however, affected by wavelength-, polarization-, and time-dependent instrument-related effects. Thus, at the core of standardization approaches for all fluorescence-based techniques are evaluated fluorescence standards for the consideration of instrument-specific spectral and intensity distortions of measured signals and for instrument performance validation (IPV).
Here, we summarize the research of BAM division 1.2 on development of liquid and solid fluorescence standards for various application-relevant fluorescence parameters and techniques. The portfolio of BAM fluorescence reference materials presently consists of:
i) a Spectral Fluorescence Standard Kit, i.e., a set of liquid fluorescence standards with certified normalized corrected emission spectra, for the determination of a broad variety of fluorescence parameters
ii) a ready-to-use, glass-based multi-emitter fluorescence standard for IPV and the determination of instrument-to-instrument variations
iii) specially adapted calibration tools and validation concepts for microarray-based platforms used in molecular diagnostics and food safety control
iv) quantum yield (Φf) standards for relative determination of the key performance parameter Φf of fluorescent materials, which can be also used for the evaluation of the performance of absolute, standard-free methods utilizing integrating sphere setups or spectrometer accessories. These materials, that will eventually cover the ultraviolet, visible, and near infrared spectral region, are currently under certification.
This toolbox of method-adapted reference materials can perfectly complement existing fluorescence standards. These easy-to-use, reference materials can pave the way to traceable fluorescence measurements to a radiometric scale like the spectral radiance or spectral photon radiance for all users of fluorescence techniques in material sciences and analysis, as well as environmental monitoring and biotechnology. They are particularly useful for customers working in strongly regulated areas like medical diagnostics or pharmaceutical research, where certified standards in conjunction with validated standard operating procedures are mandatory.…