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Biomimetic Superhydrophobic Surfaces
In article number 2200349, Masanobu Naito and co‐workers unveil the mystery of superhydrophobic surfaces with gecko, petal and lotus effects. The study discloses a facile topography evolution path to achieve these surfaces by controlling roughness factor and length scale of roughness. It presents a manifest correlation between surface topography and water droplet...
It is desirable to turn one kind of superhydrophobic (SHPO) surfaces into another by changing surface topography alone and attaining solid surfaces with tunable properties. Herein, gecko‐, petal‐, and lotus‐like SHPO surfaces, composed of ZnO tetrapods and polydimethylsiloxane, are realized by adjusting the roughness factor and length scale of roughness, while keeping the surface chemistry the same...
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