2015
DOI: 10.1039/c4sm01424c
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How droplets nucleate and grow on liquids and liquid impregnated surfaces

Abstract: Condensation on liquids has been studied extensively in context of breath figure templating, materials synthesis and enhancing heat transfer using liquid impregnated surfaces. However, the mechanics of nucleation and growth on liquids remains unclear, especially on liquids that spread on the condensate. By examining the energy barriers of nucleation, we provide a framework to choose liquids that can lead to enhanced nucleation. We show that due to limits of vapor sorption within a liquid, nucleation is most fa… Show more

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Cited by 134 publications
(185 citation statements)
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“…The submerging of the droplets caused an increase in the distance among the pores. Also, there were several factors influencing droplet growth; these included the droplet density in the atmosphere of the system and the temperature of the surface . The submerging phenomenon was also seen at the cross‐section in the SEM images [Figure (A,B)].…”
Section: Resultsmentioning
confidence: 99%
“…The submerging of the droplets caused an increase in the distance among the pores. Also, there were several factors influencing droplet growth; these included the droplet density in the atmosphere of the system and the temperature of the surface . The submerging phenomenon was also seen at the cross‐section in the SEM images [Figure (A,B)].…”
Section: Resultsmentioning
confidence: 99%
“…During the entire droplet growth process, heat is continuously released to the substrate. For a single, isolated drop, the water vapor profile around the drop surface is radially symmetric and the drop radius follows 32,38 = R kt x (4) with x = 1/2. Our measurements show that the droplet growth profile on the cyclohexane surface roughly fits this growth curve ( Figure 3).…”
Section: Resultsmentioning
confidence: 99%
“…However, most surface morphologies on the substrates result from retextured structures, and the slippery property is performed after immersing in the lubricating liquid. It is difficult for these surfaces to store lubricating oil [47,48]; in other words, they lose their super slippery characteristics after a few days due to a gravity effect when the samples come into contact with air or they move [49][50][51]. However, maintaining slippery quality for a long time is still a pressing challenge for the provision of super slippery surfaces with excellent anticorrosion property.…”
Section: Introductionmentioning
confidence: 98%