Fabrication and target applications of hydrophilic-hydrophobic composite wettability surfaces based on surface wettability gradient and Laplace pressure gradient regulation

•The preparation methods of hydrophilic-hydrophobic composite wettability surfaces were introduced.•The regulation principle of wettability gradient and laplace pressure gradient was revealed.•The target applications of various composite wettability surfaces were evaluated.•It provides insights into...

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Bibliographic Details
Published in:Applied materials today 2023-12, Vol.35, p.101957, Article 101957
Main Authors: Luo, Dawei, Zhang, Jun, Zeng, Xinjuan, Zhang, Min, Zeng, Xinan, Zhou, Cailong
Format: Article
Language:English
Subjects:
adhesion
energy
Functional property optimization
Hydrophilic-hydrophobic composite wettability surfaces
Laplace pressure gradients
Patterning treatment
Surface energy gradients
wettability
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Summary:•The preparation methods of hydrophilic-hydrophobic composite wettability surfaces were introduced.•The regulation principle of wettability gradient and laplace pressure gradient was revealed.•The target applications of various composite wettability surfaces were evaluated.•It provides insights into optimizing the functional properties of composite wettability surfaces. Hydrophilic-hydrophobic composite wettability surfaces have shown great potential in various fields such as water harvesting, oil-water separation, microfluidic devices, the controllable adhesion of proteins and cells, microchips, and microreactors. In particular, the surface energy gradients and Laplace pressure gradients resulting from differences in surface wettability and hydrophilic-hydrophobic patterned structures make them more efficient than traditional single wettability surfaces. In this review, the fabrication methods of composite wettability surfaces are summarized, and the theories behind the regulation of surface energy gradients and Laplace pressure gradients are discussed. Based on the surface energy gradient and the Laplace pressure gradient, we also evaluated the functional characteristics and target applications of different types of composite wettability surfaces and proposed ideas to optimize these functional properties. Finally, the limitations of the current regulation theories are briefly mentioned with expectation that more research will be done to improve these theories and enhance the functional properties of composite wettability surfaces. [Display omitted]
ISSN:2352-9407
2352-9415
DOI:10.1016/j.apmt.2023.101957