1. Directed vesicle transport by diffusio-osmosis
- Author
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Rudolf Sprik, Daniel Bonn, Dominik Michler, Noushine Shahidzadeh, and Soft Matter (WZI, IoP, FNWI)
- Subjects
Materials science ,Diffusion ,Vesicle ,Flow (psychology) ,General Physics and Astronomy ,Nanotechnology ,Ion ,Condensed Matter::Soft Condensed Matter ,Physics::Fluid Dynamics ,Pulmonary surfactant ,Flow velocity ,Chemical physics ,Oil droplet ,Electric field - Abstract
We present a study on surfactant vesicles that spontaneously move towards an oil droplet that is deposited on a glass substrate. Tracer particles in the surfactant solution show that the motion is not self-propelled: the vesicles are entrained by a macroscopic hydrodynamic flow. Measurements of the flow velocity suggest that the flow is of diffusio-osmotic nature. The surfactant is observed to move into the oil phase which creates a gradient in ion concentration in the vicinity of the droplet. As the diffusion coefficients of the surfactant's co- and counter-ions differ, a charge separation takes place and an electric field arises. This electric field then generates a hydrodynamic flow along the charged glass substrate in which the vesicles are entrained.
- Published
- 2015
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