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Single Condensation Droplet Self-Ejection from Divergent Structures with Uniform Wettability

Nicolò G. Di Novo, Alvise Bagolini, Nicola M. Pugno

2024ACS Nano24 citationsDOIOpen Access PDF

Abstract

Coalescence-induced condensation droplet jumping has been extensively studied for anti-icing, condensation heat transfer, water harvesting, and self-cleaning. Another phenomenon that is gaining attention for potential enhancements is the self-ejection of individual droplets. However, the mechanism underlying this process remains elusive due to cases in which the abrupt detachment of an interface establishes an initial Laplace pressure difference. In this study, we investigate the self-ejection of individual droplets from uniformly hydrophobic microstructures with divergent geometries. We design, fabricate, and test arrays of truncated, nanostructured, and hydrophobic microcones arranged in a square pattern. High-speed microscopy reveals the dynamics of a single condensation droplet between four cones: after cycles of growth and stopped self-propulsion, the suspended droplet self-ejects without abrupt detachments. Through analytical modeling of the droplet in a conical pore as an approximation, we describe the slow isopressure growth phases and the rapid transients driven by surface energy release once a dynamic configuration is reached. Microcones with uniform wettability, in addition to being easier to fabricate, have the potential to enable the self-ejection of all nucleated droplets with a designed size, promising significant improvements in the aforementioned applications and others.

Topics & Concepts

WettingCoalescence (physics)CondensationMaterials scienceChemical physicsLaplace pressureSurface energyNanotechnologyMechanicsSurface tensionChemical engineeringComposite materialChemistryThermodynamicsPhysicsEngineeringAstrobiologySurface Modification and SuperhydrophobicityFluid Dynamics and Heat TransferIcing and De-icing Technologies
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