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Molar Mass Analysis of Polymers
Objective:
The objective of this lab is to become familiar with two techniques for the analysis of molar mass in high-molecular weight materials. Two techniques will be used, gel permeation chromatography (GPC) {or high pressure liquid chromatography (HPLC)} and intrinsic viscosity using the Mark-Houwink equation. The samples are polystyrene.
Instruments to be used:
GPC (Clarson, by permission arranged by Sathish Sukumaran, class demonstration)
Dilute solution viscometry (Departmental)
Materials:
Several polystyrene monodisperse standards and a commercial sample of polystyrene. Toluene (spectroscopic grade).
Procedure:
1) Prepare 1% by mass samples for the GPC in toluene.
2) Observed the operation of the GPC by TA or Doug Bowling.
3) Determine the Mark Houwink parameters for polystyrene.
4) Prepare a series of solutions for determination of the intrinsic viscosity. Use the Ubbelohde viscometer to determine elution time for solvent and a series of polymer solutions.
Analysis:
1) Determine the molar mass for the samples studied using the Mark-Houwink equation.
2) Determine the number, weight and z-average molecular weights from the GPC curves.
Questions:
1) What moment of molar mass is obtained in intrinsic viscosity measurements? Is this an absolute or a secondary method? Is GPC an absolute or secondary method?
3) Is toluene a theta solvent for PS at the temperatures used? How do you know this?
4) How do the molar mass moments from GPC compare with the moment obtained from intrinsic viscosity?
5) From your experience in this lab, what are the advantages and disadvantages of GPC and intrinsic viscosity in the determination of molar mass?
1/21/00
More Specific Instructions for Capillary Viscometer: