Orbiting self-organization of filament-tethered surface-active droplets

10 October 2022, Version 1
This content is a preprint and has not undergone peer review at the time of posting.

Abstract

Dissipative chemical systems operate outside of equilibrium, and hold potential to enable life-like behavior in synthetic matter, such as self-organization, motility, and dynamic switching between different states. Here, out-of-equilibrium self-organization is demonstrated at an air-water interface, enabled by amphiphile filaments that self-assemble from source droplets and tether to pivalic anhydride-based drain droplets, which are surrounded by a pivalic acid gradient due to their hydrolysis. The coupling of chemical gradients, self-assembly and Marangoni flow due to release and depletion of amphiphiles at the air-water interface generates a unique orbiting of drain droplets around the source droplet. This orbiting is proposed to be driven by the selective adhesion of filaments to the front of the moving drain, while filaments approaching the drain from behind are destabilized upon contact with the asymmetrical gradient of pivalic acid. The motion sustains itself to complete multiple rotations, ending when the depletion of amphiphiles at the drain, which drives the Marangoni flow towards the drain, becomes too weak to attract new filaments. Potential applications are foreseen in rearranging networks for dynamic transfer of chemical signals amongst interconnected droplets, and the implementation of dissipative chemical reactions in self-organizing systems as a strategy towards life-like behavior is highlighted.

Keywords

self-organization
active droplets
out-of-equilibrium
surfactants
Marangoni flow
myelin assemblies

Supplementary materials

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Supplementary Information
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Additional experimental details, Supplementary Figures and Supplementary movies corresponding to the microscopy images.
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Movie 1
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Optical microscopy recording corresponding to Figure 2b.
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Movie 2
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Fluorescence microscopy movie corresponding to Figures 3 and S7.
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Optical microscopy movie corresponding to Figure 4a and Figure 5.
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Optical microscopy movie corresponding to Figure 4d.
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Optical microscopy movie corresponding to Figure 4e.
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Movie 7
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Optical microscopy movie corresponding to Figure 7c.
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Optical microscopy movie corresponding to Figure 7d.
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Movie 9
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Optical microscopy movie corresponding to Figure 7e.
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Movie 10
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Optical microscopy movie corresponding to Figure 8a.
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Optical microscopy movie corresponding to Figure S1.
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Optical microscopy movie corresponding to Figure S2.
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Optical microscopy movie corresponding to Figure S3.
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Optical microscopy movie corresponding to Figure S4.
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Movie 15
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Optical microscopy movie corresponding to Figure S5a.
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Movie 16
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Optical microscopy movie corresponding to Figure S5b.
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Movie 17
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Fluorescence microscopy movie corresponding to Figure S6.
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Movie 18
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Optical microscopy movie corresponding to Figure S8.
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Movie 19
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Optical microscopy movie corresponding to Figure S9a.
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Movie 20
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Optical microscopy movie corresponding to Figure S9b (left) and S9c (right).
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Movie 4
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Optical microscopy movie corresponding to Figure 4b-c.
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