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Oblique pancake bouncing

Ran Tao, Guoqiang Liang, Binhong Dou, Jun Wu, Bing Li, Chonglei Hao

2022Cell Reports Physical Science24 citationsDOIOpen Access PDF

Abstract

Despite extensive efforts in approaching the theoretical limit of solid-liquid contact time, the vertical bouncing droplet eventually lands on the impact spot of horizontally placed surfaces, which makes the liquid removal inefficient and thus limits its practical applications. To address this challenge, we use superhydrophobic surfaces consisting of regularly patterned pillars with an inclined Janus structure and report a phenomenon that involves synergistic effects of both pancake rebound and directional transport in one bouncing cycle, contributing to the reduction of contact time and the lateral removal of impacting droplets simultaneously. We generalize this particular regime to a broad range of working environments with various thermal conditions and impact velocities, demonstrating the robustness of water repellency and the directionality of liquid motion. The unusual bouncing performance, generality, and practicability of our work may provide useful insights into various applications, including electricity generation, self-cleaning, defogging, and anti-icing.

Topics & Concepts

Oblique caseThermalGeneralityMechanicsRobustness (evolution)ElectricityMaterials scienceSolid surfaceDirectionalityComputer scienceMeteorologyEngineeringPhysicsElectrical engineeringChemistryChemical physicsGeneBiologyBiochemistryPsychologyLinguisticsGeneticsPsychotherapistPhilosophySurface Modification and SuperhydrophobicityFluid Dynamics and Heat TransferAdhesion, Friction, and Surface Interactions
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