Emergent Collective Motion of Self-Propelled Condensate Droplets

Marcus Lin; Philseok Kim; Sankara Arunachalam; Rifan Hardian; Solomon Adera; Joanna Aizenberg; Xi Yao; Dan Daniel

doi:10.1103/PhysRevLett.132.058203

Emergent Collective Motion of Self-Propelled Condensate Droplets

Marcus Lin, Philseok Kim, Sankara Arunachalam, Rifan Hardian, Solomon Adera, Joanna Aizenberg^*, Xi Yao^*, Dan Daniel^*

^*Corresponding author for this work

Department of Biomedical Sciences

Research output: Journal Publications and Reviews › RGC 21 - Publication in refereed journal › peer-review

9 Citations (Scopus)

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Abstract

Recently, there is much interest in droplet condensation on soft or liquid or liquidlike substrates. Droplets can deform soft and liquid interfaces resulting in a wealth of phenomena not observed on hard, solid surfaces (e.g., increased nucleation, interdroplet attraction). Here, we describe a unique collective motion of condensate water droplets that emerges spontaneously when a solid substrate is covered with a thin oil film. Droplets move first in a serpentine, self-avoiding fashion before transitioning to circular motions. We show that this self-propulsion (with speeds in the 0.1-1 mm s^-1 range) is fueled by the interfacial energy release upon merging with newly condensed but much smaller droplets. The resultant collective motion spans multiple length scales from submillimeter to several centimeters, with potentially important heat-transfer and water-harvesting applications. © 2024 authors. Published by the American Physical Society.

Original language	English
Article number	058203
Journal	Physical Review Letters
Volume	132
Issue number	5
Online published	1 Feb 2024
DOIs	https://doi.org/10.1103/PhysRevLett.132.058203
Publication status	Published - 2 Feb 2024

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This full text is made available under CC-BY 4.0. https://creativecommons.org/licenses/by/4.0/

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abstract = "Recently, there is much interest in droplet condensation on soft or liquid or liquidlike substrates. Droplets can deform soft and liquid interfaces resulting in a wealth of phenomena not observed on hard, solid surfaces (e.g., increased nucleation, interdroplet attraction). Here, we describe a unique collective motion of condensate water droplets that emerges spontaneously when a solid substrate is covered with a thin oil film. Droplets move first in a serpentine, self-avoiding fashion before transitioning to circular motions. We show that this self-propulsion (with speeds in the 0.1-1 mm s-1 range) is fueled by the interfacial energy release upon merging with newly condensed but much smaller droplets. The resultant collective motion spans multiple length scales from submillimeter to several centimeters, with potentially important heat-transfer and water-harvesting applications. {\textcopyright} 2024 authors. Published by the American Physical Society. ",

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AU - Lin, Marcus

AU - Kim, Philseok

AU - Arunachalam, Sankara

AU - Hardian, Rifan

AU - Adera, Solomon

AU - Aizenberg, Joanna

AU - Yao, Xi

AU - Daniel, Dan

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N2 - Recently, there is much interest in droplet condensation on soft or liquid or liquidlike substrates. Droplets can deform soft and liquid interfaces resulting in a wealth of phenomena not observed on hard, solid surfaces (e.g., increased nucleation, interdroplet attraction). Here, we describe a unique collective motion of condensate water droplets that emerges spontaneously when a solid substrate is covered with a thin oil film. Droplets move first in a serpentine, self-avoiding fashion before transitioning to circular motions. We show that this self-propulsion (with speeds in the 0.1-1 mm s-1 range) is fueled by the interfacial energy release upon merging with newly condensed but much smaller droplets. The resultant collective motion spans multiple length scales from submillimeter to several centimeters, with potentially important heat-transfer and water-harvesting applications. © 2024 authors. Published by the American Physical Society.

AB - Recently, there is much interest in droplet condensation on soft or liquid or liquidlike substrates. Droplets can deform soft and liquid interfaces resulting in a wealth of phenomena not observed on hard, solid surfaces (e.g., increased nucleation, interdroplet attraction). Here, we describe a unique collective motion of condensate water droplets that emerges spontaneously when a solid substrate is covered with a thin oil film. Droplets move first in a serpentine, self-avoiding fashion before transitioning to circular motions. We show that this self-propulsion (with speeds in the 0.1-1 mm s-1 range) is fueled by the interfacial energy release upon merging with newly condensed but much smaller droplets. The resultant collective motion spans multiple length scales from submillimeter to several centimeters, with potentially important heat-transfer and water-harvesting applications. © 2024 authors. Published by the American Physical Society.

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Emergent Collective Motion of Self-Propelled Condensate Droplets

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