Introduction
Malvern's OMNISEC system is an advanced multi-detector GPC system that combines light scattering, refractive index (RI), ultraviolet (UV) and intrinsic viscosity (IV) detectors to generate a large amount of information about a sample simultaneously. The physical properties and behavior of polymers depends strongly on the properties of the polymer molecules themselves. Molecular weight and molecular weight distribution, molecular size and structure all affect how the material will behave. By understanding and controlling these properties, polymer manufacturers can control polymer production and quality.GPC/SEC (gel-permeation or size-exclusion chromatography) is the most commonly used tool for assessing these parameters. The principle of GPC involves separating the sample as it travels through a porous but inert column matrix. While smaller molecules penetrate the pores more deeply, larger molecules are excluded and thus travel through the column faster. The result is a separation based on hydrodynamic volume. However, in most cases, the desire is to know the molecular weight of the sample. In this application note, the molecular weight, molecular weight distribution and size of common polymers are measured using the OMNISEC system.
Materials and methods
The OMNISEC system was set up as follows: Samples were separated using two Viscotek T6000M columns. The mobile phase was THF stabilized with 300 ppm BHT. Samples were allowed to dissolve overnight to ensure full dissolution. The detectors and columns were all held at 35 °C to ensure a good separation and maximize baseline stability. The three samples analyzed in this note are a broad distribution polystyrene sample, a broad distribution polymethylmethacrylate (PMMA) and a polyvinylchloride (PVC). All three were dissolved in the mobile phase and then run through the system. Their molecular weights were measured using the new OMNISEC system.Results
A chromatogram of the polystyrene sample with high polydispersity is shown in Figure 2A (click here to see figures, tables and read the full application note). The table shows the measured MW, which is determined by the light scattering detector to be 249.7 kDa. The RI chromatogram overlaid with the molecular weight distribution is shown in 2C. Figure 2D shows an overlay of the molecular weight distribution of two replicate injections for the polystyrene sample which shows the excellent reproducibility of the light scattering data. Click here to read the full application noteMalvern provides the materials and biophysical characterization technology and expertise that enables scientists and engineers to investigate, understand and control the properties of dispersed systems. These systems range from proteins and polymers in solution, particle and nanoparticle suspensions and emulsions, through to sprays and aerosols, industrial bulk powders and high concentration slurries. Used at all stages of research, development and manufacturing, Malvern’s instruments provide critical information that helps accelerate research and product development, enhance and maintain product quality and optimize process efficiency. Our products reflect Malvern’s drive to exploit the latest technological innovations. They are used by both industry and academia, in sectors ranging from pharmaceuticals and biopharmaceuticals to bulk chemicals, cement, plastics and polymers, energy and the environment. Malvern systems are used to measure particle size, particle shape, zeta potential, protein charge, molecular weight, mass, size and conformation, rheological properties and for chemical identification, advancing the understanding of dispersed systems across many different industries and applications. www.malvern.com Material relationships http://www.malvern.com/en/ [email protected]
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