Unidirectional Droplet Transport on the Biofabricated Butterfly Wing.

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DOI:10.1021/acs.langmuir.8b02550
Corpus ID: 52304397

@article{Li2018UnidirectionalDT, title={Unidirectional Droplet Transport on the Biofabricated Butterfly Wing.}, author={Peiliu Li and Bo Zhang and Hongbin Zhao and Lunjia Zhang and Zhe Wang and Xiangyu Xu and Tingting Fu and Xiaonan Wang and Yongping Hou and Yuzun Fan and Lei Wang}, journal={Langmuir : the ACS journal of surfaces and colloids}, year={2018}, volume={34 41}, pages={ 12482-12487 }, url={https://api.semanticscholar.org/CorpusID:52304397}}

Peiliu Li, Bo Zhang, Lei Wang
Published in Langmuir 19 September 2018
Engineering, Materials Science

The water droplet shows the anisotropic state on the biofabricated surface, and it rolls off easily along the step direction, and this experiment is significant for designing self-cleaning surfaces.

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32 Citations

Background Citations

32 Citations

Anisotropic Superhydrophobic Properties of Bioinspired Surfaces by Laser Ablation of Metal Substrate inside Water

Yilin SuYizhe ZhaoShengyuan JiangX. HouMinghui Hong

Materials Science, Engineering

Advanced Materials Interfaces

2021

Water droplet unidirectional adhesion, wetting, and transport on the asymmetric superhydrophobic surfaces have attracted much research interest in theory analyses and applications. In this study,…

Velocity-Switched Droplet Rebound Direction on Anisotropic Superhydrophobic Surfaces.

Peiliu LiFei ZhanWen Wang

Materials Science, Engineering

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Chemistry, Materials Science

Langmuir : the ACS journal of surfaces and…

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Because the grooved surface is mechanically stronger against mechanical abrasion, the self-cleaning effect exhibited in the parallel direction suggests that groove texturing is a viable approach to create mechanically robust, self- Cleaning, superoleophobic surfaces.

Magnetically Induced Low Adhesive Direction of Nano/Micropillar Arrays for Microdroplet Transport

Yucai LinZiying Hu Yongmei Zheng

Materials Science, Physics

2018

A kind of superhydrophobic magnetic nano/micropillar array (MNA) with optimized intrinsic dynamic wetting property has characteristics of magnetically induced dynamic tilt‐angle changes, which…

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Physics

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It is shown that a drop impinging on Echevaria leaves exhibits asymmetric bouncing dynamics with distinct spreading and retraction along two perpendicular directions, which results from an asymmetric momentum and mass distribution that allows for preferential fluid pumping around the drop rim.

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Directional Droplet Spreading Transport Controlled on Tilt‐Angle Pillar Arrays

Yucai LinZiying HuChunlei GaoZhenyu GuoChang LiYongmei Zheng

Materials Science, Engineering

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2018

The controllable unidirectional spreading of droplet on tilt‐angle pillar arrays (TPAs) composed of epoxy resin (TDE‐85) and polyethylene glycol is presented. TPAs are fabricated via soft lithography…

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J. T. PearsonDaniel MaynesB. W. Webb

Materials Science, Physics

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Droplet impingement experiments were performed on grooved hydrophobic surfaces with cavity fractions of 0, 80, and 93% using droplets of water and a 50%/50% water/glycerol mixture. The influence…

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Directed motion of liquid droplets is of considerable importance in various water and thermal management technologies. Although various methods to generate such motion have been developed at low…

Dynamic behavior of water droplet impact on microtextured surfaces: the effect of geometrical parameters on anisotropic wetting and the maximum spreading diameter.

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Engineering, Materials Science

Langmuir : the ACS journal of surfaces and…

2013

The wetting behavior, especially for direction-dependent water contact angles on textured silicon surfaces after silanization, was investigated by incorporating the contact line fraction into a modified Wenzel model, and the maximum spreading factor was studied theoretically in terms of energy conservation.

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