Issue 27, 2022

Direct imaging of polymer filaments pulled from rebounding drops

Abstract

Polymer filaments form the foundation of biology from cell scaffolding to DNA. Their study and fabrication play an important role in a wide range of processes from tissue engineering to molecular machines. We present a simple method to deposit stretched polymer fibers between micro-pillars. This occurs when a polymeric drop impacts on and rebounds from an inclined superhydrophobic substrate. It wets the top of the pillars and pulls out liquid filaments which are stretched and can attach to adjacent pillars leaving minuscule threads, with the solvent evaporating to leave the exposed polymers. We use high-speed video at the microscale to characterize the most robust filament-forming configurations, by varying the impact velocity, substrate structure and inclination angle, as well as the PEO-polymer concentration. Impacts onto plant leaves or a randomized nano-structured surface leads to the formation of a branched structure, through filament mergers at the free surface of the drop. SEM shows the deposition of filament bundles which are thinner than those formed by evaporation or rolling drops. Raman spectroscopy identifies the native mode B stretched DNA filaments from aqueous-solution droplets.

Graphical abstract: Direct imaging of polymer filaments pulled from rebounding drops

Supplementary files

Article information

Article type
Paper
Submitted
09 May 2022
Accepted
10 Jun 2022
First published
21 Jun 2022
This article is Open Access
Creative Commons BY license

Soft Matter, 2022,18, 5097-5105

Direct imaging of polymer filaments pulled from rebounding drops

Z. Q. Yang, P. Zhang, M. Shi, A. Al Julaih, H. Mishra, E. Di Fabrizio and S. T. Thoroddsen, Soft Matter, 2022, 18, 5097 DOI: 10.1039/D2SM00599A

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