A theoretical method to analyze diffusion of probe molecules in nanostructured fluids by fluorescence correlation spectroscopy.

In this paper, we study the fluorescence fluctuation correlation function in structured fluids where the diffusion coefficients of probe molecules have different values depending on the distance from initial position, and we derive two simple expressions. Both of them reproduce the exact numerical results rather accurately. One of the expressions contains a time-dependent diffusion coefficient and has a clear physical meaning. We show a procedure to analyze experimental data using the time-dependent diffusion coefficient which results from crossover from free diffusion inside a mesh to hindered diffusion through mesh structures.