Abstract
Smart water-collecting functions are naturally endowed on biological surfaces with unique wettable microstructures, e.g., beetle back with “alternate hydrophobic, hydrophilic micro-regions”, and spider silk with wet-rebuilt “spindle-knot, joint” structures. Enlightened by the creature features, design of bio-inspired surfaces becomes the active issue in need of human beings for fresh water resource. Recently, as observed from spider web in nature, the net of spider silk is usually set in different situations and slopes in air, thus spider silks can be placed in all kinds of orientations as capturing water. Here, we show the styles and orientations of hump-on-string to control the ability of water collection as bioinspired silks are fabricated successfully. As different strings, sizes (height, length, pitch) of humps can become the controlling on volumes of extreme water drops. It is related to the different solid/liquid contact regions resulting in the as-modulated wet adhesion due to orientations of humps-on-strings. The conversion of high-low adhesion can be achieved to rely on orientations for the effect of capturing water drops. These studies offer an insight into enhancement of water collection efficiency and are helpful to design smart materials for controlled water drop capture and release via conversions of high-low adhesion.
Highlights
Inspired by the features of orientations in silk net, here, we show the styles and orientations of hump-on-string to control the ability of water collection as bioinspired silks are fabricated successfully
It is found that the diameters of main fibers can influence the formation of humps in sizes after preparation via Rayleigh instability technique[28] and the dip-coating method
As reported[15], the hanging water droplet ability is related to the three-phase contact line, which is in proportion to the adhesion force at solid-liquid interface
Summary
Inspired by the features of orientations in silk net, here, we show the styles and orientations of hump-on-string to control the ability of water collection as bioinspired silks are fabricated successfully. The solid-liquid contact areas for larger hanging-droplets can be predicted by optimizing the concentration of polymer and diameter of main fiber. As reported[15], the hanging water droplet ability is related to the three-phase contact line, which is in proportion to the adhesion force at solid-liquid interface.
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