Journal
ADVANCED FUNCTIONAL MATERIALS
Volume -, Issue -, Pages -Publisher
WILEY-V C H VERLAG GMBH
DOI: 10.1002/adfm.202213916
Keywords
3D microprinting; liquid super-repellent; reentrant topography; solid-liquid interactions
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Liquid super-repellent surfaces with bio-inspired micro-topography have unique properties, such as self-cleaning and low-friction, making them valuable for various applications. However, traditional microfabrication methods face challenges in fabricating delicate 3D topographies. The emerging 3D microprinting techniques offer unparalleled design freedom and flexibility, enabling the design and fabrication of super-repellent microstructures with remarkable properties.
Liquid super-repellent surfaces, characterized by a low liquid-solid contact fraction, allow various liquids to bead up and freely roll off. Apart from liquid repellency, these surfaces feature several unique properties, including inter alia, self-cleaning, low-friction, anti-icing, and anti-biofouling, making them valuable for a vast array of applications involving liquids. Essential to achieve such super-repellency is the bio-inspired reentrant or doubly reentrant micro-topography. However, despite their unique interfacial properties, the fabrication of these delicate 3D topographies by conventional microfabrication methods is extremely challenging. Recently, emerging 3D microprinting technologies, particularly two-photon lithography, have brought new scope to this field. With unparalleled design freedom and flexibility, 3D microprinting greatly facilitates the design, testing, and studying of complex 3D microstructures. Here, applications of 3D microprinting in the design and fabrication of super-repellent microstructures are summarized, with a focus on their remarkable properties, and new functionalities offered by these intricate 3D topographies. Current challenges and new opportunities of emerging 3D microprinting techniques to further advance liquid super-repellent materials are also discussed.
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