Hot Liquid Marbles
ORAL
Abstract
Droplets in non-wetting states have minimal adhesion and exceptional mobility due to the presence of a gas layer between the liquid and its substrate. On superhydrophobic surfaces, the lubricating gas layer is maintained by hydrophobic texture at the solid surface. Here, the liquid only touches the tops of the texture and primarily contacts air [1]. Alternatively, the hydrophobic texture can be directly embedded at the liquid surface by covering the drop with hydrophobic particles. Such coated drops, known as liquid marbles [2], have been extensively studied for their low adhesion and high mobility [3]. In this presentation, we discuss the stability and adhesion of marbles containing hot liquids depending on their temperature, the substrate wettability, and the liquid volatility.
References
(1) A. Lafuma & D. Quéré, Nature Materials, 2, 457-460, 2003.
(2) P. Aussillous & D. Quéré, Nature, 411, 924-927, 2001.
(3) P. Jin et al. The Journal of Chemical Physics, 158, 204709, 2023.
References
(1) A. Lafuma & D. Quéré, Nature Materials, 2, 457-460, 2003.
(2) P. Aussillous & D. Quéré, Nature, 411, 924-927, 2001.
(3) P. Jin et al. The Journal of Chemical Physics, 158, 204709, 2023.
*TM acknowledges the financial support provided by the Japan Society for the Promotion of Science (JSPS) - Grant-in-Aid for Scientific Research (B), 24K01341. TM and PKR gratefully acknowledge the financial support provided by the Japan Society for the Promotion of Science (JSPS) Grant-in-Aid for JSPS Fellows 23KF0106. PKR is a JSPS International Research Fellow, Postdoctoral Fellowships for Research in Japan (Standard).
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Presenters
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Pritam K Roy
- The University of Tokyo