Persistence of Birefringence in Sheared Solutions of Wormlike Micelles
2009-01-06T00:00:00Z (GMT) by
When aqueous solutions containing wormlike micelles (worms) are sheared, the micellar chains tend to align with the flow, which in turn leads to flow-birefringence. When shear is stopped, the worms rapidly revert to an isotropic state in typical samples, and the birefringence disappears. In this study, we present a system of cationic worms that shows a different behavior: not only do the samples become intensely birefringent when sheared but the <i>birefringence also persists for hours</i> (and even days) after shear is stopped. These results suggest that shear-aligned worms in the sample are trapped in their aligned state for long periods of time, an aspect that is confirmed by cryo-transmission electron microscopy (cryo-TEM). We seek to determine the origin of this unusual behavior. Our results show that the persistent birefringence is observed for cationic worms induced by <i>hydroxy-naphthoate</i> but not salicylate counterions. These observations suggest that the micellar alignment is stabilized by intermicellar attractive interactions (such as π−π and cation−π) that arise when large aromatic counterions are anchored within the micelles.