On the interpretation of excited-state decay data for the determination of the equilibrium constants in compartmentalized systems
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[1] Peter Wolschann,et al. Excited-State Proton Transfer of 2-Naphthol Inclusion Complexes with Cyclodextrins , 1994 .
[2] M. Ameloot,et al. One-step parameter estimation of the acid-base equilibria in the ground and excited states of 2-naphthol by global compartmental analysis of the fluorescence decay surface , 1992 .
[3] J. Scaiano,et al. Effect of cyclodextrin complexation on the photochemistry of xanthone. Absolute measurement of the kinetics for triplet-state exit , 1990 .
[4] F. D. De Schryver,et al. Simultaneous analysis of single-photon timing data for the one-step determination of activation energies, frequency factors and quenching rate constants. Application to tryptophan photophysics. , 1989, Biophysical chemistry.
[5] Jay R. Knutson,et al. Simultaneous analysis of multiple fluorescence decay curves: A global approach , 1983 .
[6] M. Ameloot,et al. Non-a-priori analysis of fluorescence decay surfaces of excited-state processes .3. intermolecular excimer formation of pyrene quenched by iodomethane , 1992 .
[7] M. Ameloot,et al. Non-a-priori analysis of fluorescence decay surfaces of excited-state processes. 2. Intermolecular excimer formation of pyrene , 1991 .
[8] M. Ameloot,et al. A systematic study of the global analysis of multiexponential fluorescence decay surfaces using reference convolution , 1990 .