Laser writing biomimetic micro-nano structure and droplet directional transport
ID:92
Submission ID:101 View Protection:ATTENDEE
Updated Time:2024-10-16 19:35:30
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Invited speech
Abstract
The surface of many biological organs exhibits unique micro/nano structures that can be used for the directional transport of droplets and spheres. It has important research value in microfluidic, biomedical analysis, chemical reaction and so on. However, achieving efficient dynamic manipulation of multiform matter in different media remains a major challenge.
In this study, magnetic response Fe3O4@PDMS@SiO2 omniphobic (hydrophobic, oleophobic) microciliary arrays (MMAs) were prepared by combining laser direct writing technology with template method. Due to the modification of the hydrophobic SiO2, the optimized MMAs has a water contact Angle greater than 140°, a rolling Angle less than 3°, and an oil contact Angle of 129°. Thus, when stimulated by a moving magnet, the microciliary columns bend and deform successively in a wavy fashion. This creates a directional driving force that quickly transports water droplets and solid balls. MMAs can dynamically control water droplets (up to 25μL), oil droplets, solid balls (up to 2g), water droplets and bubbles in the air medium; Continuous delivery at a maximum speed of 2.4mm/s. This multi-substance delivery strategy is expected to be applied to biomedical processes, targeted drug delivery, and microfluidic technologies.
Keywords
Nanosecond laser processing, magnetically responsive microciliary arrays, fully hydrophobic, droplet manipulation
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