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Abstract

Precise regulation of surface wettability is critical for achieving efficient droplet transport. However, traditional surface preparation methods often suffer from process complexity, high costs, and difficulties associated with large-scale production. In this paper, we propose a suspension-based micro-etching technique for phosphor bronze surfaces, enabling the precise tailoring of droplet transport. First, micro- and nanoscale structures with gradient wettability were constructed on the surface, and then, the adhesion force of droplets was precisely controlled. An in-depth analysis based on a range of characterization methods, including X-ray photoelectron spectroscopy (XPS), X-ray diffraction (XRD), and scanning electron microscopy (SEM), indicated that the superhydrophobic surfaces constructed using the proposed suspension micro-etching technique exhibited more homogeneous microstructures, allowing also for the better control of the surface characteristics, and confirming the extraordinary potential of the proposed technique. Furthermore, the anti-icing and bouncing performance, as well as the self-cleaning ability of the created gradient-based surface, were investigated. The observed performance was consistent with the surface wettability. Overall, we present a cost-efficient, straightforward, and innovative approach to the fabrication of gradient wettability surfaces, which not only expands the palette of preparation techniques but also establishes a foundation for advancing the related fields.

Keywords

phosphor bronze superhydrophobic liquid transportation gradient wettability

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A suspension-based micro-etching technique to create gradient wettable phosphor bronze surfaces for droplet transport

Abstract

Keywords

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