Residence and diffusion of a dynamically prototropic hydration probe in AOT reverse micelles.

We investigated the hydration dynamics in the nanosized water pool of an Aerosol-OT (AOT) reverse micelle (RM) using a prototropic (proton-donating) fluorescent dye, N -methyl-7-hydroxyquinolinium (NM7HQ+), as the probe. NM7HQ+ is a photoacid, and the deprotonation of its excited-state cationic form (C*) gives rise to a neutral keto species (K*). In the present study, the residence sites of C* and K* in water pools of various sizes were determined by monitoring their time-resolved fluorescence anisotropy. Additionally, the evolutions of the C* and K* bands in the time-resolved fluorescence spectra were analyzed by fitting the spectra to the sum of two lognormal peak functions. The time-dependent spectral shifts of the species with different formal charges revealed the characteristic hydration behavior at the interface of the anionic AOT headgroups and the bound water region, as well as the rotational and translational diffusion of the probe within the RM. • Time-resolved fluorescence was used to study the behavior of an ionic/neutral probe in a reverse micelle. • The location-dependent hydration dynamics and anisotropy decay of the probes were determined. • The effect of photo-induced proton transfer and the charge state on the solvation dynamics of the probe was investigated. [ABSTRACT FROM AUTHOR]