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Berberan-Santos

Berberan-Santos, M. N. (2001). Pioneering contributions of Jean and Francis Perrin to molecular luminescence. In New Trends in Fluorescence Spectroscopy (Valeur, B. and Brochon, J. C., eds.). Springer, Berlin, pp. 7-33. [Pg.67]

Baleizao C, Nagl S, Schaeferling M, Berberan-Santos MN, Wolfbeis OS (2008) Dual fluorescence sensor for trace oxygen and temperature with unmatched range and sensitivity. Anal Chem 16 6449-6457... [Pg.226]

Stochastic approaches and Monte Carlo simulations offer a better description of radiative transfer, as shown by Berberan-Santos and coworkers (1999). [Pg.112]

For pairs of like chromophores at a fixed distance and with random and uncorrelated static orientations, the decay of emission anisotropy of the indirectly excited chromophore varies with time, tending to zero (Berberan-Santos and Valeur, 1991) in contradiction to earlier works where it was reported to be 4% of that of the directly excited chromophore. Therefore, because the probability that emission arises from the directly excited chromophore is 1/2, the decay of emission anisotropy of the latter levels off at r0/2. This can be generalized to an ensemble of n chromophores (with random and uncorrelated static orientations) the decay of emission anisotropy of the directly excited chromophore levels off at r0/n. [Pg.264]

Fig. B9.3.1. A absorption spectrum of the B excitation polarization spectra of the model multi-chromophoric cyclodextrin CD7(6) and compound NAEt and CD7(6). Solvent mixture variations in the emission maximum as a func- (9 1 v/v) of propylene glycol and 1,4-dioxane at tion of the excitation wavelength (broken line). 200 K (adapted from Berberan-Santos et al.a)). Fig. B9.3.1. A absorption spectrum of the B excitation polarization spectra of the model multi-chromophoric cyclodextrin CD7(6) and compound NAEt and CD7(6). Solvent mixture variations in the emission maximum as a func- (9 1 v/v) of propylene glycol and 1,4-dioxane at tion of the excitation wavelength (broken line). 200 K (adapted from Berberan-Santos et al.a)).
Berberan-Santos M. N., Choppinet P., Fedorov A., Jullien L., Valeur B. (1999) Multichromophoric Cydodextrins. 6. Investigation of Exdtation Energy Hopping by Monte-Carlo Simulations and Time-Resolved Fluorescence Anisotropy, J. Am. Chem. Soc. 121, 2526-2533. [Pg.271]

Lionello Pobliani and Mario N. Berberan-Santos, "Inflation Rates, Car Devaluation, and Chemical Kinetics," J. Chem. Educ., Vol. 73,1996,950-952. [Pg.477]

M. Orrit, in Fluorescence of Supermolecules, polymers and Nanosystems, ed. by O.S. Wolfbeis, M.N. Berberan-Santos (Springer, Berlin, 2008)... [Pg.75]

Bernard Valeur, Mario Nuno Berberan-Santos and Monique M. Martin... [Pg.220]

M. N. Berberan-Santos, in New Trends in Fluorescence Spectroscopy. Applications to Chemical and Life Sciences (B. Valeur and J.-C. [Pg.263]


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