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Journal of Polymer Science Part B: Polymer Physics, Vol.33, No.10, 1429-1439, 1995
Molecular-Weight Characterization of Soluble High-Performance Polyimides .1. Polymer-Solvent-Stationary Phase Interactions in Size-Exclusion Chromatography
Soluble, fully cyclized m-amino phenyl acetylene terminated polyimides based on several anhydride/diamine monomers were prepared in N-methylpyrrolidine (NMP) and cyclized by solution imidization to controlled molecular weight. The polyimides and a polyamic acid precursor were successfully analyzed by size exclusion chromatography (SEC) utilizing online parallel coupled refractive index and differential viscometer detectors. The calculated ($) over bar M(n) values were varied from 3,000 to 20,000 daltons. N-methylpyrrolidone (NMP), tetrahydrofuran (THF), and chloroform served as mobile phases for the cross-linked polystyrene gel packings. Normal retention behavior of the polyimides was observed in chloroform, THF, and NMP containing LiBr, or in NMP stirred over P2O5 before use. Values of Mark-Houwink-Sakurada exponents for narrow distribution linear polystyrene indicate that pure NMP and NMP with 0.06 M LiBr are good solvents for polystyrene standards at 60 degrees C. In contrast, SEC behavior of polyimides in pure NMP leads to splitting of the peaks with the major portion observed to pass through the columns at the exclusion limit. In contrast to strong polymeric chain expansion of the polyamic acid in dilute solution, presumably due to a polyelectrolyte effect, no increase of intrinsic viscosity of polyimide samples in pure NMP was observed. This exclusion effect of polyimides analyzed in NMP is discussed in terms of possible ion-exclusion from pores of the stationary phase. Differences in polystyrene calibration in NMP with of without additives and the temperature dependence of calibration curves in these mobile phases is discussed as well.
Keywords:GEL-PERMEATION CHROMATOGRAPHY;LIGHT-SCATTERING;POLYAMIC ACID;DIFFERENTIAL VISCOMETER;ELUTION BEHAVIOR;DETECTOR;IMIDE