光热治疗
兴奋剂
材料科学
纳米技术
曲面(拓扑)
化学工程
化学
光电子学
几何学
数学
工程类
作者
Sizhu Wu,Lili Zhou,Chao Chen,Lu‐An Shi,Suwan Zhu,Chengchu Zhang,Meng Dong,Zhouchen Huang,Jiawen Li,Yanlei Hu,Dong Wu
出处
期刊:Langmuir
[American Chemical Society]
日期:2019-09-30
卷期号:35 (43): 13915-13922
被引量:35
标识
DOI:10.1021/acs.langmuir.9b02068
摘要
The photoinduced manipulation of liquids on a slippery lubricant-infused porous surface (SLIPS) has attracted a tremendous amount of attention because of its merits of contactless stimulation and excellent spatial and temporal control. However, tedious fabrication methods by a combination of template transfer and fluorination for a photothermal-material-doped SLIPS and the lack of deeper systematically quantitative analysis with respect to droplet hydrokinetics are greatly perplexing in both academic research and industrial applications. Here we demonstrate a kind of Fe3O4-doped SLIPS by one-step femtosecond laser cross-scanning, which can readily steer diverse liquids toward arbitrary directions with a fast velocity of up to 1.15 mm/s in the presence of a unilateral NIR stimulus. The underlying mechanism is that the wettability gradient force (Fwet-grad) induced by the temperature gradient arising from asymmetric near-infrared-irradiation (NIR) loading would be generated within 1 s to actuate a targeted droplet's sliding behavior. Through tuning the NIR irradiating sites, we can slide a targeted droplet with controllable directions and routes. On the basis of fundamental physics, we have quantitatively analyzed the relationship among Fe3O4-doped content, lubricant rheological performance, droplet wettability variations, Fwet-grad, and the sliding velocity for diverse liquid species. Accordingly, we can remotely steer liquid droplets to realize the on-off state of an electrical circuit on demand, the droplet fusion of a microfluidic reactor, and the culture/inhibition of biological cells.
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