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

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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References

Lee

Choi

H-J

Jeong

, et al. Formation of wrinkled nanostructures via surface-bulk curing disparity in ethyl cyanoacrylate: toward superhydrophobic surface applications. Nanomaterials 2024; 15: 12.

Peng

, et al. A new way to construct multifunctional superhydrophobic coating and applications in anti-corrosion, self-cleaning, membrane distillation and water/oil separation. J Environ Chem Eng 2024; 12: 113782.

Jiang

Yang

. Superhydrophobic anti-icing/de-icing SR/CNTs surfaces hot-embossed with femtosecond laser machined mold. Surf Eng 2024; 40: 895–906.

Nasrollahikateb Elizee

Asjadi

Lajevardi

. Superhydrophobic modified electrodeposited copper surface for fog harvesting. Surf Eng 2024; 40: 289–298.

Adotey

Kurbanova

Ospanova

, et al. Development of superhydrophobic reduced graphene oxide (rGO) for potential applications in advanced materials. Nanomaterials 2025; 15: 363.

Chen

Zhang

Cai

, et al. Periodically oriented superhydrophobic microstructures prepared by laser ablation-chemical etching process for drag reduction. Appl Surf Sci 2023; 615: 156403.

Cannio

Boccaccini

Caporali

, et al. Superhydrophobic materials from waste: innovative approach. Clean Technol 2024; 6: 299–321.

Zhang

. A review of research on thermal characteristics and cooling strategies of high-speed motorized spindles. J Therm Anal Calorim 2024; 149: 5883–5902.

Zhang

. Design of cooling system and experimental research of grinding motorized spindle. Int J Adv Manuf Technol 2024; 133: 2145–2156.

10.

Jin

Yang

Sun

, et al. How liquids charge the superhydrophobic surfaces. Nat Commun 2024; 15: 4762.

11.

Xing

Zhou

Chen

, et al. Recent developments in preparation, properties, and applications of superhydrophobic textiles. Text Res J 2022; 92: 3857–3874.

12.

Xiao

Zhu

, et al. A superhydrophobic coating with sturdy abrasion and weather resistance. J Inorg Organomet Polym Mater 2024; 34: 4996–5005.

13.

Tang

Tian

Molino

, et al. Recent advances in superhydrophobic materials development for maritime applications. Adv Sci 2024; 11: 2308152.

14.

Barthwal

Uniyal

Barthwal

. Nature-inspired superhydrophobic coating materials: drawing inspiration from nature for enhanced functionality. Micromachines (Basel) 2024; 15: 391.

15.

Qian

Shen

. Fabrication of superhydrophobic surfaces by dislocation-selective chemical etching on aluminum, copper, and zinc substrates. Langmuir 2005; 21: 9007–9009.

16.

Wan

, et al. Tio₂ and CeO₂ nanoparticles as lithium complex grease additives for enhanced lubricity. Ind Lubr Tribol 2024; 76: 70–80.

17.

Kwon

Shin

Chu

. Fabrication of a super-hydrophobic surface on metal using laser ablation and electrodeposition. Appl Surf Sci 2014; 288: 222–228.

18.

Wang

Dai

. Fabrication of superhydrophobic surfaces on aluminum. Appl Surf Sci 2008; 254: 5599–5601.

19.

Zhang

, et al. Preparation methods and research progress of super-hydrophobic anti-icing surface. Adv Colloid Interface Sci 2024; 323: 103069.

20.

Wang

Ren

, et al. Study on intelligent bionic superhydrophobic material and its oil-water separation mechanism. Chem Eur J 2025; 31: e202402673.

21.

Hou

Qian

, et al. Superhydrophobic coatings prepared from fluorinated silica nanoparticles and fluororesin: wettability, chemical stability, mechanical durability and water repellency. Pigm Resin Technol 2025; 54: 417–424.

22.

Denman

Emel’yanenko

Serenko

, et al. Characterization of superhydrophobic coatings based on PDMS and MQ resin on textured surfaces. Colloid J 2023; 85: 581–589.

23.

Kar

Goswami

. Fabrication of superhydrophobic titanium surfaces: impact of different micropatterns. Mater Manuf Processes 2024; 39: 2253–2265.

24.

Zhong

Liu

Yang

, et al. Sio₂/polydopamine photothermal superhydrophobic coating with good anti-icing performance. Surf Eng 2024; 40: 907–916.

25.

Feng

, et al. Super-hydrophobic surfaces: from natural to artificial. Adv Mater 2002; 14: 1857–1860.

26.

Song

Wang

Dong

, et al. Controllable superhydrophobic aluminum surfaces with tunable adhesion fabricated by femtosecond laser. Opt Laser Technol 2018; 102: 25–31.

27.

Wan

. Fabrication of superhydrophobic aluminium alloy surface by twice nanosecond laser scanning. Micro Nano Lett 2018; 13: 469–472.

28.

Jia

, et al. Preparation of superhydrophobic conductive micro/nano-graphite/PDMS films on paper by simple spraying method. J Appl Polym Sci 2024; 141: e55160.

29.

Wang

Shi

Hou

, et al. Droplet transport on a nano- and microstructured surface with a wettability gradient in low-temperature or high-humidity environments. Adv Mater Interfaces 2015; 2: 1500040.

30.

Wang

Zhang

Ren

, et al. Effect of zinc oxide/layered double hydroxide on the mechanics of silicone rubber at low temperature. Eur Polym J 2023; 200: 112478.

31.

Zhou

Jing

Guo

. Optimal design of a fog collector: unidirectional water transport on a system integrated by conical copper needles with gradient wettability and hydrophilic slippery rough surfaces. Langmuir 2020; 36: 6801–6810.

32.

Zhang

, et al. A surface with superoleophilic-to-superoleophobic wettability gradient. ACS Appl Mater Interfaces 2014; 6: 1729–1733.

33.

Shen

Tao

, et al. Droplet directional movement on the homogeneously structured superhydrophobic surface with the gradient non-wettability. Langmuir 2020; 36: 880–888.

34.

Wang

Zhao

, et al. Poly (dimethyl siloxane) anti-corrosion coating with wide pH-responsive and self-healing performance based on core-shell nanofiber containers. J Mater Sci Technol 2022; 101: 128–145.

35.

Chen

Kang

, et al. Research advances on superhydrophobic coating for metal surfaces via one-step electrodeposition. Anti-Corros Methods Mater 2024; 71: 179–190.

36.

Xiang

Zhang

, et al. Superhydrophobic LDH/TTOS composite surface based on microstructure for the anti-corrosion, anti-fouling and oil-water separation application. Colloids Surf A 2021; 622: 126558.

37.

Peng

Yang

You

, et al. A multilayer photothermal superhydrophobic anti-icing coating applied to asphalt pavement with remarkable wear resistance. ACS Appl Mater Interfaces 2024; 16: 35588–35603.

38.

Wenzel

. Resistance of solid surfaces to wetting by water. Ind Eng Chem 1936; 28: 988–994.

39.

Cassie

Baxter

. Wettability of porous surfaces. Trans Faraday Soc 1944; 40: 546–551.

40.

Zhang

Guo

Zhang

, et al. Adhesion shear strength test method for freshwater/seawater ice on carbon ceramic brake pads of amphibious aircraft. Aircr Eng Aerosp Technol 2022; 94: 781–791.

41.

Zhang

. Numerical investigation on thermal protection of wind turbine flanges in extremely cold weather. Int J Numer Methods Heat Fluid Flow 2024; 34: 2022–2042.

42.

Syafiq

Balakrishnan

Rahim

. Durable self-cleaning nano-titanium dioxide superhydrophilic coating with anti-fog property. Pigm Resin Technol 2022; 53: 261–270.

43.

Syafiq

Pandey

Balakrishnan

, et al. Study on self-cleaning performance and hydrophobicity of TiO₂/silane coatings. Pigm Resin Technol 2018; 53: 1–9.

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