期刊
JOURNAL OF FLUORESCENCE
卷 20, 期 1, 页码 181-190出版社
SPRINGER/PLENUM PUBLISHERS
DOI: 10.1007/s10895-009-0536-1
关键词
Fluorescence deconvolution; Excited state intramolecular proton transfer; Hydrogen bonding; Polarity; Multiparametric probe
资金
- Alexander von Humboldt Foundation
- DFG Center for Molecular Physiology of the Brain ( DFG CMPB)
- Max Planck Society
Fluorescence probes with multiparametric response based on the relative variation in the intensities of several emission bands are of great general utility. An accurate interpretation of the system requires the determination of the number, positions and intensities of the spectral components. We have developed a new algorithm for spectral deconvolution that is applicable to fluorescence probes exhibiting a two-state ground-state equilibrium and a two-state excited-state reaction. Three distinct fluorescence emission bands are resolved, with a distribution of intensities that is excitation-wavelength-dependent. The deconvolution of the spectrum into individual components is based on their representation as asymmetric Siano-Metzler log-normal functions. The application of the algorithm to the solvation response of a 3-hydroxychromone (3HC) derivative that exhibits an H-bonding-dependent excited-state intramolecular proton transfer (ESIPT) reaction allowed the separation of the spectral signatures characteristic of polarity and hydrogen bonding. This example demonstrates the ability of the method to characterize two potentially uncorrelated parameters characterizing dye environment and interactions.
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