通过形状记忆效应诱导的悬浮液轻松平版印刷制造闭环回流微孔网,实现稳健的液体回弹性

Gain Lee, Bong Su Kang, Minsu Kim, Moon Kyu Kwak
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摘要

压印光刻技术是制造微结构最常用的技术之一,因为它在成本和时间上都具有很高的效率。然而,由于脱模过程固有的局限性,压印技术在实现复杂微结构方面的可行性有限。本文展示了一种结合压印光刻和形状记忆聚合物(SMP)的简便方法,用于制造具有微尺度网状结构的闭环重入拓扑图。通过利用形状记忆聚合物的形态可变特性制造悬浮微网状物,可以提升印刻在预压形状记忆聚合物支柱阵列上的网状结构。悬浮微网完全由恢复的 SMP 微柱阵列支撑,呈现出传统压印光刻方法无法实现的闭环形状。此外,由于重入几何的性质,即使是表面张力比水小的液体也能实现斥液性能,从而在自清洁、液滴操纵和防污方面提供了大量应用。研究了制作的悬浮微网的各种斥液性能,并将其与非润湿结构的理论预期进行了比较,证实在制作的结构中成功建立了重入地形。所提出的光刻技术不仅可广泛用于憎液表面,还可用于制造各种功能结构。
本文章由计算机程序翻译,如有差异,请以英文原文为准。

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Facile Lithographic Fabrication of Closed-Loop Reentrant Micromesh via Shape Memory Effect-Induced Suspension for Robust Liquid-Repellency
Imprint lithography is one of the most used techniques for fabricating microstructures, owing to its high efficiency in both costs and time. However, imprinting has limited feasibility in realizing complex microstructures due to difficulties arising from the inherent limitations in the demolding process. Herein, a facile method is demonstrated for fabricating closed-loop reentrant topographies with microscale meshes through a combination of imprint lithography and shape memory polymer (SMP). The mesh structure imprinted onto the pre-pressed SMP pillar array can be elevated by utilizing the form-switchable property of SMP to fabricate suspended micromesh. Suspended micromesh is fully supported by restored SMP micropillar array, exhibiting a closed-loop shape that cannot be achieved with conventional imprint lithographic methods. Also, by the nature of reentrant geometry, liquid-repellency can be realized even for liquids with a lower surface tension than water, offering numerous applications in self-cleaning, droplet manipulation, and antifouling. Various liquid-repellent performances of the fabricated suspended micromesh are investigated and compared to the theoretical expectations for a non-wetting structure, confirming the successful establishment of reentrant topography in the fabricated structures. The proposed lithographic technique can be broadly utilized not only for liquid-repellent surfaces but also for the fabrication of various functional structures.
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