Total Internal Reflection Fluorescence Dynamic Anisotropy of Sulforhodamine 101 at a Liquid/Liquid Interface: Rotational Reorientation Times and Interfacial Structures

Abstract

The dynamic anisotropy of Sulforhodamine 101 (SR101) at water/phthalate ester (PE, bis(2-ethylhexyl) phthalate, di-n-heptyl phthalate, di-n-butyl phthalate, or di-n-ethyl phthalate) interfaces was studied by using time-resolved total internal reflection (TIR) fluorometry. A magic-angle dependence of the TIR fluorescence dynamics revealed that rotational reorientation of SR101 at the water/PE interface was restricted in the X−Y plane (in-plane) of the interface. The results indicated that the interface was sharp with respect to the molecular size of SR101 (∼10 A). In-plane rotational reorientation of SR101 at the interface showed two time constants (τrot). The fast component (τ1rot) was similar to that in water irrespective of the nature of PE, while the slow one (τ2rot) was affected by the viscosity of PE but not directly by the macroscopic viscosity. The two rotational reorientation times of SR101 characteristic to the water/PE interface were explained in terms of different adsorption modes of the dye on...