Berlin 2015 – scientific programme

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DY: Fachverband Dynamik und Statistische Physik

DY 35: Complex Fluids and Soft Matter - Part I (joint session DY/ CPP / BP)

DY 35.2: Talk

Wednesday, March 18, 2015, 15:15–15:30, BH-N 333

Suppression of Ostwald Ripening by Chemical Reactions in Active Emulsions — •David Zwicker^1,2, Anthony A. Hyman³, and Frank Jülicher² — ¹Harvard University, Cambridge MA, USA — ²Max Planck Institute for the Physics of Complex Systems, Dresden, Germany — ³Max Planck Institute of Cell Biology and Genetics, Dresden, Germany

Ostwald ripening is a coarsening process of droplets in an emulsions that is driven by the surface tension of the droplets. This coarsening must be suppressed to stabilize emulsions, e.g. to control the properties of pharmaceuticals, food, or cosmetics. Ostwald ripening must also be suppressed in biological cells, which contain liquid-like compartments, e.g. germ granules, Cajal-bodies, and centrosomes. Such systems are often driven away from equilibrium by chemical reactions and can thus be described as active emulsions.

Here, we show that non-equilibrium chemical reactions can suppress Ostwald Ripening, leading to stable, monodisperse emulsions. Using a coarse-grained description of the droplet dynamics, we derive analytical approximations of the typical droplet size, droplet count, and time scale of the dynamics. We also compare these results to numerical simulations of the continuous concentration fields. We thus show how chemical reactions can be used to stabilize emulsions and control their properties.