Vapor sorption in amorphous Teflon AF2400 of various organic solutes was studied in a wide range of activity at 25 degrees C by means of the gravimetric technique. The sorption isotherms of hexane, toluene, and chloroform were shown to be concave to the pressure axis and are consistent with the dual mode sorption model (DMS). The parameters of the DMS model k(D) and b reveal a linear correlation with squared critical temperature of solutes T-c(2). The third model parameter, the Langmuir sorption capacity Q decreases when the size of solutes (critical volume) increases. H Sorption isotherms of methanol and ethanol were shown to be convex to the pressure axis and are consistent with cluster formation in this strongly hydrophobic polymer. Concentration-dependent diffusion coefficients D were determined using a linear implicit difference scheme in analysis of sorption kinetics. It was shown that D values increase exponentially with concentration for all the solutes, except alcohols for which exponential reduction of D(C) was observed. The partitioning of the thermodynamic and mobility contributions in D indicated that the reduction of D values of alcohols is consistent with clustering phenomena in AF2400. (c) 2006 Wiley Periodicals, Inc.