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从粘性到滑润:用于制备液体浸润表面的自功能化润滑剂

From Sticky to Slippery: Self-Functionalizing Lubricants for Fabrication of Liquid-Infused Surfaces.

作者信息

Chiera Salvatore, Koch Vanessa M, Bleyer Gudrun, Walter Teresa, Bittner Carina, Bachmann Julien, Vogel Nicolas

机构信息

Institute of Particle Technology (LFG), Friedrich-Alexander-University Erlangen-Nürnberg (FAU), Cauerstraße 4, 91058 Erlangen, Germany.

Interdisciplinary Center for Functional Particle Systems, Friedrich-Alexander-University Erlangen-Nuremberg, Erlangen 91058, Germany.

出版信息

ACS Appl Mater Interfaces. 2022 Apr 13;14(14):16735-16745. doi: 10.1021/acsami.2c02390. Epub 2022 Mar 30.

Abstract

Liquid-infused surfaces offer a versatile approach to create self-cleaning coatings. In such coatings, a thin film of a fluid lubricant homogeneously coats the substrate and thus prevents direct contact with a second, contaminating liquid. For stable repellency, the interfacial energies need to be controlled to ensure that the lubricant is not replaced by the contaminating liquid. Here, we introduce the concept of self-functionalizing lubricants. Functional molecular species that chemically match the lubricant but possess selective anchor groups are dissolved in the lubricant and self-adhere to the surface, forming the required surface chemistry from within the applied lubricant layer. To add flexibility to the self-functionalizing concept, the substrate is first primed with a thin polydopamine base layer, which can be deposited to nearly any substrate material from aqueous solutions and retains reactivity toward electron-donating groups such as amines. The temporal progression of the functionalization is investigated by ellipsometry and quartz crystal microbalance and correlated to macroscopic changes in contact angle and contact angle hysteresis. The flexibility of the approach is underlined by creating repellent coatings with various substrate/lubricant combinations. The prepared liquid-infused surfaces significantly reduce cement adhesion and provide easy-to-clean systems under real-world conditions on shoe soles.

摘要

注液表面为制备自清洁涂层提供了一种通用方法。在这类涂层中,一层薄薄的流体润滑剂均匀地覆盖在基底上,从而防止与第二种污染液体直接接触。为实现稳定的拒液性能,需要控制界面能,以确保润滑剂不会被污染液体取代。在此,我们引入了自功能化润滑剂的概念。将化学性质与润滑剂匹配但具有选择性锚定基团的功能性分子物种溶解在润滑剂中,并自粘附于表面,从所施加的润滑层内部形成所需的表面化学性质。为增加自功能化概念的灵活性,首先用一层薄薄的聚多巴胺基层对基底进行预处理,该基层可从水溶液沉积到几乎任何基底材料上,并保留对诸如胺等供电子基团的反应活性。通过椭偏仪和石英晶体微天平研究功能化的时间进程,并将其与接触角和接触角滞后的宏观变化相关联。通过创建具有各种基底/润滑剂组合的拒液涂层,突出了该方法的灵活性。所制备的注液表面显著降低了水泥附着力,并在实际条件下为鞋底提供了易于清洁的系统。

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