Abstract
A 1H NMR method capable of determining the level of swelling of microscopic volume elements (about 20 μm in diameter) within cross-linked materials is described. The fact that it is a microscopic swell measurement makes it extremely useful for the characterization of the swelling heterogeneities which may exist within common network systems, such as core/shell or other morphologies. The method utilizes the differences in chemical shift between solvent absorbed into the cross-linked polymer and that of solvent outside the polymer. This chemical shift difference is then correlated to macroscopic swelling (rather than cross-linking) through a simple model which encompasses both the effective chemical cross-links and the entanglement cross-links in the manner of classical swelling experiments. The analysis is demonstrated for styrene, divinylbenzene copolymer beads, cross-linked polycarbonates, ion-exchange cation resins and cross-linked poly(acrylic acid). A calibration is, in each case, developed with a ser...
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