posted on 2024-03-04, 14:05authored byPengyu Yang, Kai Yin, Xinghao Song, Lingxiao Wang, Qinwen Deng, Jiaqing Pei, Yuchun He, Christopher J. Arnusch
Liquid manipulation is essential for daily life and modern
industry,
and it is widely used in various fields, including seawater desalination,
microfluidic robots, and biomedical engineering. Nevertheless, the
current research focuses on the manipulation of individual droplets.
There are a few projects for water film management. Here, we proposed
a facile method of wind-triggered water film self-sculpturing based
on a heterogeneous wettability surface, which is achieved by the femtosecond
laser direct writing technology and femtosecond laser deposition.
Under the conditions of various airflow velocities and water film
thicknesses, three distinct behaviors of the water film were analyzed.
As a result, when the water film thickness is lower than 4.9 mm, the
self-sculpture process will occur until the whole superhydrophobic
surface dewetting. Four potential applications are demonstrated, including
encryption, oil containers, reconfigurable patterning, and self-splitting
devices. This work provides a new approach for manipulating a water
film of fluid control engineering.