Raman Investigation of the Processing Structure Relations in Individual Poly(ethylene terephthalate) Electrospun Fibers

Electrospun fibers often exhibit enhanced properties at reduced diameters, a characteristic now widely attributed to a high molecular orientation of the polymer chains along the fiber axis. A parameter that can affect the molecular organization is the type of collector onto which fibers are electrospun. In this work, we use polarized confocal Raman spectromicroscopy to determine the incidence of the three most common types of collectors on the molecular orientation and structure in individual fibers of a broad range of diameters. Poly(ethylene terephthalate) is used as a model system for fibers of weakly crystalline polymers. A clear correlation emerges between the choice of collector, the induced molecular orientation, the fraction of trans conformers, and the degree of crystallinity within fibers. Quantitative structural information gathered by Raman contributes to a general description of the mechanism of action of the collectors based on the additional strain they exert on the forming fibers.

Automated summary

This study investigated the influence of three common types of collectors on the molecular orientation and structure of fibers using polarized confocal Raman spectromicroscopy, revealing a clear correlation between the choice of collector, induced molecular orientation, fraction of trans conformers, and degree of crystallinity within fibers. The quantitative structural information obtained by Raman provides a general description of the mechanism of action of collectors based on the additional strain they exert on the forming fibers.