Visualization of Charge Dynamics when Water Droplets Bounce on a Hydrophobic Surface

可视化 材料科学 电荷(物理) 曲面(拓扑) 动力学(音乐) 化学物理 液态水 表面电荷 分子动力学 纳米技术 化学 物理 计算机科学 物理化学 热力学 几何学 计算化学 数学 量子力学 人工智能 声学
作者
Xiaojuan Li,Liqiang Zhang,Yange Feng,Youlin Zhang,Haozhe Xu,Feng Zhou,Daoai Wang
出处
期刊:ACS Nano [American Chemical Society]
卷期号:17 (23): 23977-23988 被引量:22
标识
DOI:10.1021/acsnano.3c08742
摘要

Visualizing the motion of water droplets and understanding their electrification behavior holds significance for applications related to droplet transport, self-cleaning, and anti-icing/deicing and for providing a comprehensive explanation of the solid-liquid triboelectrification mechanism. Here, by constructing microcolumnar structures on the polytetrafluoroethylene surface, a water droplet-based single electrode triboelectric nanogenerator was fabricated for visualizing charge dynamics when a water droplet bounces on a hydrophobic surface. The motion state of the water droplet is closely linked to its electrification behavior through the integration of a high-speed camera and an ammeter. The electrification behavior stemming from the bounce of the water droplet is dynamically captured in real-time. The results show that the magnitude and polarity of the electrical signal have strong dependence on the motion state of the water droplet. For instance, when a water droplet approaches or moves away from the substrate in a single direction, a unipolar electrical signal is generated. However, when the water droplet reaches its limit in the initial motion direction, it signifies a static equilibrium state, resulting in the electrical signal being at zero. Furthermore, we examine the impact of factors such as impact speed, drop contact area, contact line spreading/retraction speed, and impact angle on electrification. Finally, based on the close relationship between poly(ethylene oxide) (PEO) droplet bounce dynamics and electrical signals, the bouncing details of PEO droplets with different concentrations are tracked by electrical signals. This study digitally presents the whole process of droplet bounce in situ and provides a means for monitoring and tracking droplet movement.
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