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Self-propulsion of water-supported liquid marbles filled with sulfuric acid

Frenkel, Mark; Dombrovsky, Leonid; Multanen, Victor; Danchuk, Viktor; Legchenkova, Irina; Shoval, Shraga; Bormashenko, Yelena; Binks, Bernard P.; Bormashenko, Edward

Authors

Mark Frenkel

Leonid Dombrovsky

Victor Multanen

Viktor Danchuk

Irina Legchenkova

Shraga Shoval

Yelena Bormashenko

Edward Bormashenko



Abstract

Self-propulsion of liquid marbles filled with sulfuric acid and coated with hydrophobic fluorosilica powder on a water surface is reported. The prolonged self-propulsion of marbles occurs over a couple of minutes with a typical velocity of the center of mass of the marble being . The shell of the marble is not uniform, resulting in the asymmetric absorption of water by a marble, giving rise to the nonuniform thermal field within its volume. The maximum temperature reached at the liquid marble surface was 70 °C. The self-propelled marble increased its mass by one-third during the course of its motion. The increase in mass followed by the marbles’ heating is due to the adsorption of water vapor by their surface, which is permeable to gases. This gives rise to an exothermic chemical reaction, which in turn gives rise to Marangoni thermo-capillary flow driving the marble. Thermo-physical analysis of the problem is presented. The role of soluto-capillary flow in self-propulsion is negligible.

Citation

Frenkel, M., Dombrovsky, L., Multanen, V., Danchuk, V., Legchenkova, I., Shoval, S., Bormashenko, Y., Binks, B. P., & Bormashenko, E. (2018). Self-propulsion of water-supported liquid marbles filled with sulfuric acid. Journal of Physical Chemistry B, 122(32), 7936-7942. https://doi.org/10.1021/acs.jpcb.8b06136

Journal Article Type Article
Acceptance Date Jul 24, 2018
Online Publication Date Jul 24, 2018
Publication Date Aug 16, 2018
Deposit Date Sep 18, 2018
Publicly Available Date Jul 25, 2019
Journal The Journal of Physical Chemistry B
Print ISSN 1520-6106
Publisher American Chemical Society
Peer Reviewed Peer Reviewed
Volume 122
Issue 32
Pages 7936-7942
DOI https://doi.org/10.1021/acs.jpcb.8b06136
Keywords Physical and Theoretical Chemistry; Materials Chemistry; Surfaces, Coatings and Films
Public URL https://hull-repository.worktribe.com/output/1056568
Publisher URL https://pubs.acs.org/doi/ipdf/10.1021/acs.jpcb.8b06136
Contract Date Sep 18, 2018

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