The type and amount of counterions present in a polyelectrolyte component of blend with a fluorinated polymer are shown to affect the bulk morphology. Cast films display large-scale phase separation when the polyelectrolyte is in acid form, whereas the blends containing polyelectrolyte fully neutralized with organic counterions are homogeneous. At intermediate ratios, miscibility is controllable, and the blend is partially miscible when cast at 170 degrees C but fully miscible when cast at 70 degrees C (LCST behavior). Blend miscibility favors the formation of the beta crystalline polymorph of the poly(vinylidene difluoride) component (PVDF). For macrophase-separated systems, the crystalline polymorph depends on the temperature of casting: at 170 degrees C, the incompatible polymers separate during solvent evaporation and PVDF crystallizes from the rnelt into the alpha phase. At 70 degrees C, PVDF crystallization occurs from a miscible blend during the solvent evaporation and the beta phase is obtained, giving rise to crystalline lamellae swollen by the polyelectrolyte.