Your search keyword '"Niroobakhsh, Zahra"' showing total 2 results

1. Rapid Stabilization of Immiscible Fluids using Nanostructured Interfaces via Surfactant Association.

Author

Niroobakhsh, Zahra, LaNasa, Jacob A., Belmonte, Andrew, and Hickey, Robert J.

Subjects

*CATIONIC surfactants, *SMALL-angle X-ray scattering, *NANOSTRUCTURED materials, *SURFACE active agents, *LIQUID-liquid interfaces, *FLUIDS

Abstract

Surfactant molecules have been extensively used as emulsifying agents to stabilize immiscible fluids. Droplet stability has been shown to be increased when ordered nanoscale phases form at the interface of the two fluids due to surfactant association. Here, we report on using mixtures of a cationic surfactant and long chained alkenes with polar head groups [e.g., cetylpyridinium chloride (CPCl) and oleic acid] to create an ordered nanoscale lamellar morphology at aqueous-oil interfaces. The self-assembled nanostructure at the liquid-liquid interface was characterized using small-angle x-ray scattering, and the mechanical properties were measured using interfacial rheology. We hypothesize that the resulting lamellar morphology at the liquid-liquid interface is driven by the change in critical packing parameter when the CPCl molecules are diluted by the presence of the long chain alkenes with polar head groups, which leads to a spherical micelle-to-lamellar phase transition. The work presented here has larger implications for using nanostructured interfacial material to separate different fluids in flowing conditions for biosystems and in 3D printing technology. [ABSTRACT FROM AUTHOR]

Published

2019

2. Flow instabilities due to the interfacial formation of surfactant-fatty acid material in a Hele-Shaw cell.

Author

Niroobakhsh, Zahra, Litman, Matthew, and Belmonte, Andrew

Subjects

*FATTY acids, *SURFACE active agents, *AQUEOUS solutions

Abstract

We present an experimental study of pattern formation during the penetration of an aqueous surfactant solution into a liquid fatty acid in a Hele-Shaw cell. When a solution of the cationic surfactant cetylpyridinium chloride is injected into oleic acid, a wide variety of fingering patterns are observed as a function of surfactant concentration and flow rate, which are strikingly different than the classic Saffman-Taylor (ST) instability. We observe evidence of interfacial material forming between the two liquids, causing these instabilities. Moreover, the number of fingers decreases with increasing flow rate Q, while the average finger width increases with Q, both trends opposite to the ST case. Bulk rheology on related mixtures indicates a gel-like state. Comparison of experiments using other oils indicates the importance of pH and the carboxylic head group in the formation of the surfactant-fatty acid material. [ABSTRACT FROM AUTHOR]

Published

2017