K. Rissler, Separation of polyesters by gradient reversed-phase high-performance liquid chromatography on a 1.5 mu m non-porous column, J CHROMAT A, 871(1-2), 2000, pp. 243-258
Efficient separation of polyesters composed of a large number of individual
oligomers was achieved on a 1.5 mu m "non-porous" octadecylsilyl (ODS) sil
ica support by gradient high-performance reversed-phase liquid chromatograp
hy (gRP-HPLC) with a mobile phase of acetonitrile, aqueous trifluoroacetic
acid (0.2%) and tetrahydrofuran at ambient temperature and signal monitorin
g by UV absorption at 280 nm. Substantial signal splitting of oligomers in
the low molecular weight (M-r) region is indicative that separation not onl
y occurs with respect to molecular weight distribution (MWD) but also to ch
emical composition distribution (CCD) and functionality type distribution (
FTD). Although separation according to CCD and FTD decreases with increasin
g number of oligomers, co-elution of species with identical number of repea
t units but differing in either structure of repeat units or end-groups can
be assumed from the relatively broad signals succeeding the aforementioned
peaks showing at least partial resolution. Despite the observation that hi
gh M-r oligomers elute as sharp signals, the preceding observations suggest
that each of these peaks presumably composes of more than one individual c
omponent. The polyester oligomers are eluted in the range of increasing M-r
and therefore, either separation according to MWD or CCD/FTD was at least
achieved for the low M-r sample constituents. Some principal mechanistic as
pects of separation are discussed and adsorption seems to play the dominant
role. The detection limit, defined as that sample amount yielding an unequ
ivocal recognition on the base of its characteristic chromatographic finger
print pattern was about 5,000 ppm for the pair Alftalat 3258 - Alftalat 335
2 and 10,000 ppm for the pair Crylcoat 430 - Crylcoat 801. (C) 2000 Elsevie
r Science B.V. All rights reserved.