Publications by authors named "Hyunggon Park"
We investigate the arrested spreading of room temperature droplets impacting flat ice. The use of an icy substrate eliminates the nucleation energy barrier, such that a freeze front can initiate as soon as the droplet's temperature cools down to 0 °C. We employ scaling analysis to rationalize distinct regimes of arrested hydrodynamics.
View Article and Find Full Text PDFWe develop a novel approach to suspend ice in the air-trapping Cassie state without requiring any fragile hydrophobic coatings or nanostructures. First, frost was preferentially grown on the tops of hydrophilic aluminum pillars due to their sharp corners and elevation over the noncondensable gas barrier. Subsequently, Cassie ice was formed by virtue of the impacting droplets getting arrested by the upper frost tips.
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- Wheat is threatened by leaf rust diseases, and rain-splashing can spread rust spores to nearby leaves.
- The study found that splashed droplets can either bounce off or stick to leaves, depending on leaf orientation and fungicide treatment.
- Fungicides, while intended to protect wheat, may inadvertently increase the risk of disease spread by making leaves stickier for the spores.
Vortex-induced dispersal of a plant pathogen by raindrop impact.
Proc Natl Acad Sci U S A
March 2019
Raindrop impact on infected plants can disperse micron-sized propagules of plant pathogens (e.g., spores of fungi).
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