Mosaic membranes were prepared by two successive grafting steps of acrylic acid and 4-vinyl-pyridine into well localized domains of polytetrafluoroethylene films. The films were subjected to X-rays through a grid-shaped shield which activated linear zones of the film 0.5 mm wide, separated by 0.5 mm of unactivated film. The films were then grafted with acrylic acid, neutralized and subjected to a second irradiation through a shield which protected the grafted zones. 4-Vinylpyridine was then grafted into the stripes left unchanged after the first treatment. The following properties of the resulting mosaic membranes were examined: swelling in water, electric conductivity and ion-pair diffusion. The coefficients of ion-pair diffusion were found to be 100–1000 times higher for the mosaic membranes than for carboxylic membranes of the same grafting ratio.