Journal
MICROMACHINES
Volume 12, Issue 5, Pages -Publisher
MDPI
DOI: 10.3390/mi12050547
Keywords
tunable wettability; wettability pattern; femtosecond laser
Categories
Funding
- Laser Manufacturing and Additive Manufacturing Project of the National Key Research and Development Program of China [2018YFB1108000]
- Wenzhou Municipal Key Science and Research Program [ZG2019031]
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This paper demonstrates the rapid tunability of zinc superhydrophobic surfaces using femtosecond-laser-ablated microholes to control wettability. Surface energy of zinc can be increased by UV irradiation while surface energy of water can be decreased by heating water temperature to achieve quick photothermal wettability tuning. The potential application of the zinc superhydrophobic surfaces in micro-/nanofluidic devices is highlighted.
A quickly tunable wettability pattern plays an important role in regulating the surface behavior of liquids. Light irradiation can effectively control the pattern to achieve a specific wettability pattern on the photoresponsive material. However, metal oxide materials based on light adjustable wettability have a low regulation efficiency. In this paper, zinc (Zn) superhydrophobic surfaces can be obtained by femtosecond-laser-ablated microholes. Owing to ultraviolet (UV) irradiation increasing the surface energy of Zn and heating water temperature decreasing the surface energy of water, the wettability of Zn can be quickly tuned photothermally. Then, the Zn superhydrophobic surfaces can be restored by heating in the dark. Moreover, by tuning the pattern of UV irradiation, a specific wettability pattern can be transferred by the Zn microholes, which has a potential application value in the field of new location-controlled micro-/nanofluidic devices, such as microreactors and lab-on-chip devices.
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