Performance of Fluorescence Correlation Spectroscopy for Measuring Diffusion and Concentration

**The cover picture shows** the two focal regions of a two‐focus fluorescence correlation spectroscopy set‐up with molecules diffusing through these regions. The depicted curves are the fluorescence autocorrelation curves for the first and the second focus, respectively, as well as the fluorescence

A new FOQELS setup is described for use in concentrated dispersions. A fiber-to-fiber coupler is introduced as an extra local oscillator source. This results in a reliable determination of the diffusion coefficient of concentrated dispersions where the heterodyne mode appertains at every concentrati

## Abstract Aqueous environments in living cells are crowded, with up to >50 wt% small and macromolecule‐size solutes. We investigated quantitatively one important consequence of molecular crowding—reduced diffusion of biologically important solutes. Fluorescence correlation spectroscopy (FCS) was

The preceding paper develops the theory for the interpretation of fluorescence photobleaching recovery (FPR) measurements of multiple binding of a ligand to a multivalent substrate molecule. Based on a reasonable assumption about the mechanism of the photobleaching process, this analysis shows that

The suitability of photon correlation spectroscopy (PCS) for the determination of concentration and size distribution of colloidal matter was tested in a surface water and.in a deep groundwater. Well-defined colloids (sizes predominately in the range 50-500 nm) of a-FezO,, y-AI(O SiOz, kaolinite, il