The method of fluorescence decays simultaneous analysis
- 1 January 1996
- journal article
- Published by AIP Publishing in Review of Scientific Instruments
- Vol. 67 (1) , 48-54
- https://doi.org/10.1063/1.1147226
Abstract
A new method of high speed simultaneous deconvolution of multiple fluorescence decays with equal lifetimes and variable amplitudes is offered. The absence of need for initial guesses and comparably high accuracy make it suitable for obtaining initial conditions for other methods like iterative least squares. We discuss optimizations of the deconvolution procedure based on reductions of the matrix dimension. This establishes a higher processing speed and requires less computer memory. The properties and potential of this method were investigated through tests on simulated decay surfaces.Keywords
This publication has 19 references indexed in Scilit:
- Improved recursive convolution integral for the analysis of fluorescence decay data: Local approximation of the apparatus response function by a general polynomialReview of Scientific Instruments, 1993
- Monte Carlo convolution method for simulation and analysis of fluorescence decay dataReview of Scientific Instruments, 1991
- Comparison of fluorescent lifetime fitting techniquesThe Journal of Physical Chemistry, 1984
- Extension of the performance of Laplace deconvolution in the analysis of fluorescence decay curvesBiophysical Journal, 1983
- Decay-associated fluorescence spectra and the heterogeneous emission of alcohol dehydrogenaseBiochemistry, 1982
- Applications of fast Fourier transform to deconvolution in single photon countingThe Journal of Physical Chemistry, 1979
- Deconvolution of fluorescence decay curves. A critical comparison of techniquesThe Journal of Physical Chemistry, 1979
- Analysis of time-dependent fluorescence experiments by the method of modulating functions with special attention to pulse fluorometryChemical Physics, 1978
- On the analysis of fluorescence decay kinetics by the method of least-squaresAnalytical Biochemistry, 1974
- Studies on the Analysis of Fluorescence Decay Data by the Method of MomentsBiophysical Journal, 1973