Related references
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Review
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Summary: This review provides an overview of the recent progress and applications of slippery liquid-infused porous surfaces (SLIPS) in anti-icing, anti-corrosion, antifouling, and surface omniphobicity. It discusses the bio-inspired design of the SLIPS system and various fabrication strategies involving liquid or solid lubricants on surfaces with different wetting properties. The typical applications of SLIPS, including oil/water separation, anti-icing, anti-fouling, and anticorrosion, are summarized and compared, and the future perspectives are discussed based on the latest studies.
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Summary: This study focuses on the fabrication of liquid-infused ZnO nanowire array by capillary rise lubrication, investigating the effect of array morphology on suppressing wetting ridge formation in order to achieve stable SLIPS properties.
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Yixuan Wang et al.
Summary: Bioinspired superwettable surfaces are widely used in various applications, but research on their scalephobic capability is limited. The deposition of scale affects heat transfer efficiency and liquid transport, prompting the introduction of specific barrier layers onto these surfaces. This article discusses the concept, fabrication methods, progress, and stability of bioinspired scalephobic surfaces with specific barrier layers, while also addressing existing issues and future directions.
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Mohamed A. Samaha et al.
Summary: This review focuses on the study of slippery surfaces, including different types such as superhydrophobic, superoleophobic, and omniphobic surfaces, and discusses various slippery mechanisms found in nature. Recent advances in manufacturing, processing techniques, and performance characterization methods are covered in this review.
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Summary: This study utilized a blend of cationic and anionic polymers to assemble layer-by-layer films with controlled surface morphologies and increased contact angles under acidic conditions. The lubricated fluorinated films showed improved slippery properties and can potentially serve as slippery surfaces for various applications.
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