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Chromatography, size exclusion polymerization

CPC/SEC (gel permeation chromatography/size exclusion chromatography) Solution polymerization [95, 96, 102, 108, 109] The whole MWD obtained/ Invasive, non-robust, sampling loop required, large delay times (30 min to 1 h) Homogenous polymerization systems (free-radical / step-growth)... [Pg.328]

This article discusses the theory and methods for the determination of molecular weight averages and molecular weight distributions of oligomeric and polymeric materials. The more important methods are described in greater detail in separate articles (see Chromatography, Size Exclusion Fractionation Characterization OF Polymers). [Pg.4914]

VI. APPLICATION OF POLYMERIC BEADS AS SIZE EXCLUSION CHROMATOGRAPHY SUPPORTS... [Pg.19]

An aqueous ethanol solution of acrylamide, 2,2 -methylenebisacrylamide as cross-linked agent and third acrylamide derivative, is dispersed in an n-alkane. Then three monomers are polymerized to spherical porous gels. The effect of the composition of the third monomer on the exclusion limits of the gel in size-exclusion chromatography has been investigated (82). [Pg.22]

D. Application of Monosized Polymeric Particles in Size Exclusion Chromatography... [Pg.23]

High-performance size exclusion chromatography is used for the characterization of copolymers, as well as for biopolymers (3). The packings for analyses of water-soluble polymers mainly consist of 5- to 10-/Am particles derived from deactivated silica or hydrophilic polymeric supports. For the investigation of organosoluble polymers, cross-linked polystyrene beads are still the column packing of choice. [Pg.219]

Size exclusion chromatography (SEC, also known as GPC and GFC) has become a very well accepted separation method since its introduction in the late-1950s by works of Porath and Flodin (1) and Moore (2). Polymers Standards Service (PSS) packings for SEC/SEC columns share this long-standing tradition as universal and stable sorbents for all types of polymer applications. In general, PSS SEC columns are filled with spherical, macroporous cross-linked, pressure-stable, and pH-resistant polymeric gels. [Pg.267]

Advanced computational models are also developed to understand the formation of polymer microstructure and polymer morphology. Nonuniform compositional distribution in olefin copolymers can affect the chain solubility of highly crystalline polymers. When such compositional nonuniformity is present, hydrodynamic volume distribution measured by size exclusion chromatography does not match the exact copolymer molecular weight distribution. Therefore, it is necessary to calculate the hydrodynamic volume distribution from a copolymer kinetic model and to relate it to the copolymer molecular weight distribution. The finite molecular weight moment techniques that were developed for free radical homo- and co-polymerization processes can be used for such calculations [1,14,15]. [Pg.110]

Advances in size-exclusion chromatography, coupled with refractive index, absorption, viscosity, and lightscattering detectors, and MALDI-ToFMS, have made it possible to accurately determine molecular weight distribution (oligomer profiling), even at the relatively low values of polymeric additives (up to about 5000 Da). Advances in column design, e.g. high-resolution PS/DVB columns (> 105 plates m-1) mean that SEC can provide a valuable alternative to conventional HPLC techniques for the separation of small molecules. [Pg.733]

Shirakawa polyacetylene, 444 Siloxanes, polymerization, 239 Size exclusion chromatography, 262-263 Solubility, specialty polymers, 256 Spacers, flexible polymer backbones, 97 Specialty polymers, polar/ionic groups, 256 Stability, polymers, 256 Storage moduli, vs. temperature behavior, 270... [Pg.482]

Figure 1. Size exclusion chromatography of Ru3(C0)i2 catalyzed polymerization of MeNH-[H2SiNMe]x-H as a function of time. Polystyrene standards used for calibration. Figure 1. Size exclusion chromatography of Ru3(C0)i2 catalyzed polymerization of MeNH-[H2SiNMe]x-H as a function of time. Polystyrene standards used for calibration.
We report here the results of our recent studies of poly(alkyl/arylphosphazenes) with particular emphasis on the following areas (1) the overall scope of, and recent improvements in, the condensation polymerization method (2) the characterization of a representative series of these polymers by dilute solution techniques (viscosity, membrane osmometry, light scattering, and size exclusion chromatography), thermal analysis (TGA and DSC), NMR spectroscopy, and X-ray diffraction (3) the preparation and preliminary thermolysis reactions of new, functionalized phosphoranimine monomers and (4) the mechanism of the polymerization reaction. [Pg.284]

Conversely, since a great many routes for precursor design are now known, improvements in the control of polymerization reactions will be essential. Studies should be directed to the accurate measurement of the molecular weights, Mn and Mw, of the inorganic polymers by using size-exclusion chromatography techniques. [Pg.188]

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See also in sourсe #XX -- [ Pg.148 ]



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