Mingyi Wu scite author profile

Functional wetting surfaces have excellent prospects in applications including self-cleaning, anti-fog, anti-icing, corrosion resistance, droplet control, and friction power generation. Laser micromachining technology is an advanced method for preparing such functional surfaces with high efficiency and quality. To fully exploit the potential of laser micromachining and the related hybrid methods, a wide spectrum of knowledge is needed. The present review systematically discusses the process capabilities and research developments of laser micromachining and its hybrid methods considering the research both in basic and practical fields. This paper outlines the relevant literature, summarizes the characteristics of functional wetting surfaces and also the basic scientific requirements for laser micromachining technology. Finally, the challenges and potential applications of superhydrophobic and superoleophobic surface are briefly discussed. This review fills the gap in the research literature by presenting an extended literature source with a wide coverage of recent developments.

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Research on the Quality of Micro-holes Processed by Laser and Backside Electrolytic Hybrid Machining

Zhang

Liu

et al. 2023

J. of Materi Eng and Perform

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Mingyi Wu

A review on applications of functional superhydrophobic surfaces prepared by laser biomimetic manufacturing

A Review on Preparation of Superhydrophobic and Superoleophobic Surface by Laser Micromachining and Its Hybrid Methods

Research on the Quality of Micro-holes Processed by Laser and Backside Electrolytic Hybrid Machining

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