On-Line Coupling of Thermal Field-Flow Fractionation with Low-Angle Laser Light Scattering

Abstract

The analysis of a polymethyl methacrylate sample dissolved in dimethylformamide is performed by using a low-angle laser light scattering photometer attached to a thermal field-flow fractionation channel and a differential refractometer. Relevant theoretical light scattering equations for flow-through operation are outlined. It is shown that the calibration curve of the separation system can be constructed in situ during the course of separation, without using any calibration standard. The average molecular weights as well as the molecular weight distribution curves of the polymer have been determined. The sensitivity of the light-scattering photometer has been measured, and it is compared to that of the differential refractometer in terms of signal-to-noise ratios. The various sources of errors in the molecular weight determination are discussed, and the potential of the coupling for physicochemical studies on the thermal diffusion of polymers is indicated. In spite of some inherent problems, this coupling is expected to have a very bright future if reliable low-angle light-scattering instruments can be made available at moderate prices.