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Problems associated with the measurement of photoluminescence are briefly reviewed, including relevant instrument parameters affecting these measurements. Procedures for the characterization of relevant instruments are discussed, focusing on spectrofluorometers, and fit-for-purpose methods including suitable standards are recommended. The aim here is to increase the awareness of the importance of reliable instrument characterization and to improve the comparability of measurements of photoluminescence.
To improve the reliability of fluorescence data in the life and material sciences and to enable accreditation of fluorescence techniques, standardization concepts are required that guarantee and improve the comparability of fluorescence measurements. At the core of such concepts are simple and evaluated fluorescence standards for the consideration of instrument-specific spectral and intensity distortions of measured signals and for instrument performance validation (IPV). Similarly in need are fluorescence intensity standards for the quantification from measured intensities and for signal referencing, thereby accounting for excitation light-induced intensity fluctuations. These standards should be preferably certified, especially for use in regulated areas like medical diagnostics. This encouraged us to develop liquid and solid standards for different fluorescence parameters and techniques for use under routine measurement conditions in different formates. Special emphasis was dedicated to the determination and control of the spectral responsivity of detection systems, wavelength accuracy, homogeneity of illumination, and intensity referencing for e.g. spectrofluorometers, fluorescence sensors and confocal laser scanning fluorescence microscopes. Here, we will present design concepts and examples for mono- and multifunctional fluorescence standards that provide traceability to radiometric units and present a first step towards a toolbox of standards.
The aim of this article is to illustrate the need for an improved quality assurance in fluorescence microscopy. From the instrument-side, this can be achieved by a better understanding, consideration, and regular control of the instrument-specific parameters and quantities affecting measured fluorescence signals. Particularly, the need for requirements on physical- and chemical-type instrument standards for the characterization and performance validation of spectral fluorescence microscopes (SFMs) is discussed and suitable systems are presented. Special emphasis is given to spectral fluorescence standards and to day-to-day intensity standards for SFMs. Fluorescence standards and well-characterized fluorescence microscopes are the first and essential steps towards the comparability and the understanding of the variability in fluorescence microscopy data in medical and life sciences. In addition, standards enable the distinction between instrument-specific variations and fluorescent label- or probe-related uncertainties as well as generally sample-related effects.