Wetting transition at a threshold surfactant concentration of evaporating sessile droplets on a patterned surface
Wetting transitions induced by varying the components in a solution of a drying droplet can lead to its evolving shape on a textured surface. It can provide new insights on liquid pattern control through manipulating droplet solutions. We show the pronounced transitions of wetting for surfactant sol...
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sg-ntu-dr.10356-1512132021-07-02T03:08:52Z Wetting transition at a threshold surfactant concentration of evaporating sessile droplets on a patterned surface Zhong, Xin Ren, Junheng Chong, Karen Siew-Ling Ong, Kian-Soo Duan, Fei School of Mechanical and Aerospace Engineering Engineering::Mechanical engineering Deposition Liquids Wetting transitions induced by varying the components in a solution of a drying droplet can lead to its evolving shape on a textured surface. It can provide new insights on liquid pattern control through manipulating droplet solutions. We show the pronounced transitions of wetting for surfactant solution droplets drying on a micropyramid-patterned surface. At low initial surfactant concentrations, the droplet maintains an octagonal shape until the end of drying. At intermediate initial surfactant concentrations, the early octagon spreads to a square, which later evolves to a stretched rectangle. At high initial surfactant concentrations, the droplet mainly exhibits the "octagon-to-square" transition, and the square shape is maintained until the end. The octagon-to-square transition occurs at similar temporal volume-averaged surfactant concentrations for the various initial surfactant concentrations. It results from the dependence of the surface energy change of spread over the micropyramid structure on the temporal volume-averaged surfactant concentration. At high initial surfactant concentrations, the accumulation of the surfactant near the contact line driven by outward flows could raise the local viscosity and enhance the pinning effect, leading to the great suppression of the "square-to-rectangle" transition. Agency for Science, Technology and Research (A*STAR) X.Z., J.R., and F.D. thank the financial support from A*Star SERC A1783c0006. K.S.-L.C. and K.-S.O. thank the AStar Nanoimprint Foundry under grants (1325307091 and 1525300037). 2021-07-02T03:08:52Z 2021-07-02T03:08:52Z 2019 Journal Article Zhong, X., Ren, J., Chong, K. S., Ong, K. & Duan, F. (2019). Wetting transition at a threshold surfactant concentration of evaporating sessile droplets on a patterned surface. Langmuir, 35(13), 4509-4517. https://dx.doi.org/10.1021/acs.langmuir.9b00170 0743-7463 0000-0002-7469-7184 https://hdl.handle.net/10356/151213 10.1021/acs.langmuir.9b00170 30865459 2-s2.0-85063396196 13 35 4509 4517 en SERC A1783c0006 1325307091 1525300037 Langmuir © 2019 American Chemical Society. All rights reserved. |
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Engineering::Mechanical engineering Deposition Liquids Zhong, Xin Ren, Junheng Chong, Karen Siew-Ling Ong, Kian-Soo Duan, Fei Wetting transition at a threshold surfactant concentration of evaporating sessile droplets on a patterned surface |
| description |
Wetting transitions induced by varying the components in a solution of a drying droplet can lead to its evolving shape on a textured surface. It can provide new insights on liquid pattern control through manipulating droplet solutions. We show the pronounced transitions of wetting for surfactant solution droplets drying on a micropyramid-patterned surface. At low initial surfactant concentrations, the droplet maintains an octagonal shape until the end of drying. At intermediate initial surfactant concentrations, the early octagon spreads to a square, which later evolves to a stretched rectangle. At high initial surfactant concentrations, the droplet mainly exhibits the "octagon-to-square" transition, and the square shape is maintained until the end. The octagon-to-square transition occurs at similar temporal volume-averaged surfactant concentrations for the various initial surfactant concentrations. It results from the dependence of the surface energy change of spread over the micropyramid structure on the temporal volume-averaged surfactant concentration. At high initial surfactant concentrations, the accumulation of the surfactant near the contact line driven by outward flows could raise the local viscosity and enhance the pinning effect, leading to the great suppression of the "square-to-rectangle" transition. |
| author2 |
School of Mechanical and Aerospace Engineering |
| author_facet |
School of Mechanical and Aerospace Engineering Zhong, Xin Ren, Junheng Chong, Karen Siew-Ling Ong, Kian-Soo Duan, Fei |
| format |
Article |
| author |
Zhong, Xin Ren, Junheng Chong, Karen Siew-Ling Ong, Kian-Soo Duan, Fei |
| author_sort |
Zhong, Xin |
| title |
Wetting transition at a threshold surfactant concentration of evaporating sessile droplets on a patterned surface |
| title_short |
Wetting transition at a threshold surfactant concentration of evaporating sessile droplets on a patterned surface |
| title_full |
Wetting transition at a threshold surfactant concentration of evaporating sessile droplets on a patterned surface |
| title_fullStr |
Wetting transition at a threshold surfactant concentration of evaporating sessile droplets on a patterned surface |
| title_full_unstemmed |
Wetting transition at a threshold surfactant concentration of evaporating sessile droplets on a patterned surface |
| title_sort |
wetting transition at a threshold surfactant concentration of evaporating sessile droplets on a patterned surface |
| publishDate |
2021 |
| url |
https://hdl.handle.net/10356/151213 |
| _version_ |
1705151300724850688 |