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Gel Permeation Chromatography using DMF as a solvent (GPC-DMF)
The sample management system in the Waters 2690 Separation Module uses five carousels with total capacity of 120 vials. A carrier rotates the carousels to the injection station in the sample compartment. Our GPC is employing the 2414 Refractive Index Detector. Refractive index is used for compounds that do not have strong UV chromophores, fluorophores, electrochemical, or ionic activities. Traditionally, refractive index detectors have been used for carbohydrates and lipids. The refractive index is used in polymer analysis by gel permeation or size exclusion chromatography. The Refractive Index Detector functions with solvent with refractive indices between 1.00 and 1.75. The 2414 Refractive Index Detector can measure extremely small changes in refractive index as small as 7 x 10-9 by detecting the difference in the amount of light falling upon each of the elements of the dual-element photodiode. In refractive index, detection peaks can be either positive or negative, therefore it is essential that the polarity of the detector signals can be configured and changed when acquiring data. The polarity parameter is used to invert the sign of the refractive index data. The molecular weight of a polymer is a prime importance in its synthesis and application. The interesting and useful mechanical properties that are uniquely associated with polymeric materials are a consequence of their high molecular weight. Polymers differ from the small-sized compounds in that they are polydisperse or heterogeneous in molecular weight. Even if a polymer is synthesized free from contaminants and impurities, it is still not pure substance in the usually accepted sense. Polymers are mixtures of molecules of different molecular weight. The reason for polydispersity (PDI) of polymers lies in the statistical variations present in the polymerization processes. The following average molecular weights are determined: 1. The number-average molecular weight Mn. Mn = ∑NxMx Where Nx is the mole-fraction (or the number-fraction) of molecules whose weight is Mx. 2. The weight-average molecular weight Mw. Mw = ∑wxMx Where wx is the weight-fraction of molecules whose weight is Mx. In addition to the different average molecular weights of a polymer sample, it is frequently desirable and necessary to know the exact polydispersity (PDI). PDI = Mw/Mn Gel permeation chromatography (GPC) involves the permeation of a polymer solution through a column packed with microporous beads of crosslinked polystyrene. The packing contains beads of different-sized pore diameters. Molecules pass through the column by a combination of transport into and through the beads and through the interstitial volume (the volume between beads). Molecules that penetrate the beads are slowed down more in moving through the column than molecules that do not penetrate the beads; in other words, transport through the interstitial volume is faster than through the pores. The smaller-sized polymer molecules penetrate all the beads in the column since their molecular size (their hydrodynamic volume) is smaller than the pore than the pore size of the beads with the smallest-sized pores. A larger-sized polymer molecule does not penetrate all the beads since its molecular size is larger than the pore size of some of the beads. The time for passage of polymer molecules through the column decreases with increasing molecular weight.
Please contact Krystyna Brzezinska (kbrzez@mrl.ucsb.edu) to schedule training. Before training starts please read MANUAL.
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