Solution properties of poly p-isopropyl α-methylstyrene

Two series (S and F) of poly p-isopropyl ~-methylstyrene were characterized by viscometry, light scattering (LS), osmometry and gel permeation chromatography (GPC). S-samples were prepared by bulk anionic polymerization whereas F-samples were obtained on fractionation by preparative GPC of a polymer also prepared in bulk but with a different initiator. The K parameter in the Mark Houwink relation was 5.55 x 10 -4 for series-S and 4.50 × 10 -4 for series-F, whereas the exponent a was 0.55 for both series. The Mark Houwink equations for series-S and -F hold good at 25 and 30 ° for both toluene and tetrahydrofuran as solvents and have been corrected for polydispersity. The chain dimensions obtained with LS were much higher than those computed from the viscosity data indicating that the hydrodynamic theories in their present state should not be used for the calculation of chain dimensions. The deviations from the GPC universal calibration curve of polystyrene observed with some samples were attributed to structural differences among the polymers and to their high polydispersity.