Calibration, standardization, and quantitative analysis of multidimensional fluorescence (MDF) measurements on complex mixtures (IUPAC Technical Report)
Ryder, Alan G. Stedmon, Colin A. Harrit, Niels Bro, Rasmus
Ryder, Alan G.
Stedmon, Colin A.
Harrit, Niels
Bro, Rasmus
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Publication Date
2017-11-15
Keywords
calibration, chemometrics, excitation emission matrix, fluorescence, IUPAC, multidimensional, Rayleigh scatter, standardization, DISSOLVED ORGANIC-MATTER, CELL-CULTURE MEDIA, MULTIVARIATE CURVE RESOLUTION, EXCITATION-EMISSION-MATRICES, PARALLEL FACTOR-ANALYSIS, 1ST-ORDER RAYLEIGH SCATTER, THE-ART COMPARABILITY, HUMAN SERUM-ALBUMIN, INNER FILTER, MULTIWAY ANALYSIS
Type
Technical Report
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Citation
Ryder Alan, G., Stedmon Colin, A., Harrit, Niels, & Bro, Rasmus. (2017). Calibration, standardization, and quantitative analysis of multidimensional fluorescence (MDF) measurements on complex mixtures (IUPAC Technical Report) Pure and Applied Chemistry (Vol. 89, pp. 1849).
Abstract
This IUPAC Technical Report describes and compares the currently applied methods for the calibration and standardization of multi-dimensional fluorescence (MDF) spectroscopy data as well as recommendations on the correct use of chemometric methods for MDF data analysis. The paper starts with a brief description of the measurement principles for the most important MDF techniques and a short introduction to the most important applications. Recommendations are provided for instrument calibration, sample preparation and handling, and data collection, as well as the proper use of chemometric data analysis methods.
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Publisher
De Gruyter
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Rights
Attribution-NonCommercial-NoDerivs 3.0 Ireland