Using non-thermodynamic mechanisms to create tailored morphologies in polymer nanocomposites

A variety of non-thermodynamic approaches for both dispersion of nanoparticles (NPs) and the creation of organized, NP-rich phases in a polymer template has been investigated. To facilitate materials development, we have focused our preliminary efforts on commodity materials including colloidal silica and a poly(styrene-b-ethylenebutylene-b-styrene) copolymer (SEBS), processed using twin-screw extrusion and mineral oil as a solvent/diluents. Guidance and a theoretical framework is provided using a field-theoretic approach that combines the self-assembly behavior of the block copolymer matrix, the effects of solvent, and the effect of ligand-functionalized NP miscibility on morphology. The morphological behavior of these materials will be compared with the model predictions, as will the effectiveness of the non-thermodynamic mechanisms for creating controlled, tailored morphologies.